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Notes to the consolidated financial statements of Aegon N.V. Note 50 270 50 Summary of total financial assets and financial liabilities at fair value through profit or loss Investments for general account Investments for account of policyholders Investment contracts for account of policyholders Derivatives Borrowings The table that follows summarizes the carrying amounts of financial assets and financial liabilities that are classified as at fair value through profit or loss with appropriate distinction between those financial assets and financial liabilities held for trading and those that upon initial recognition were designated as at fair value through profit or loss. The Group manages certain portfolios on a total return basis which have been designated at fair value through profit or loss. This includes portfolios of investments in limited partnerships and limited liability companies (primarily hedge funds) for which the performance is assessed internally on a total return basis. In addition some investments that include an embedded derivative that would otherwise have required bifurcation such as convertible instruments preferred shares and credit linked notes have been designated at fair value through profit or loss. Investments for general account backing insurance and investment liabilities that are carried at fair value with changes in the fair value recognized in the income statement are designated at fair value through profit or loss. The Group elected to designate these investments at fair value through profit or loss as a classification of financial assets as available-for-sale would result in accumulation of unrealized gains and losses in a revaluation reserve within equity whilst changes to the liability would be reflected in net income (accounting mismatch). Investments held for account of policyholders comprise assets that are linked to various insurance and investment contracts for which the financial risks are borne by the customer. Under the Group’s accounting policies these insurance and investment liabilities are measured at the fair value of the linked assets with changes in the fair value recognized in the income statement. To avoid an accounting mismatch the linked assets have been designated as at fair value through profit or loss. In addition the investment for account of policyholders include with profit assets where an insurer manages these assets together with related liabilities on a fair value basis in accordance with a documented policy of asset and liability management. In accordance with Group’s accounting policies these assets have been designated as at fair value through profit or loss. With the exception of the financial liabilities with discretionary participating features that are not subject to the classification and measurement requirements for financial instruments all investment contracts for account of policyholders that are carried at fair value or at the fair value of the linked assets are included in the table above. With the exception of derivatives designated as a hedging instrument all derivatives held for general account and held for account of policyholders are included in the table above. Borrowings designated as at fair value through profit or loss includes financial instruments that are managed on a fair value basis together with related financial assets and financial derivatives (Refer to note 41). Annual Report 2013 2013 2012 Trading Designated Trading Designated Investments for general account 121 4 712 754 4 809 Investments for account of policyholders - 164 037 - 151 960 Derivatives with positive values not designated as hedges 12 651 - 19 348 - Total financial assets at fair value through profit or loss 12 771 168 749 20 102 156 769 Investment contracts for account of policyholders - 32 628 - 29 188 Derivatives with negative values not designated as hedges 11 248 - 17 042 - Borrowings - 1 017 - 1 050 Total financial liabilities at fair value through profit or loss 11 248 33 645 17 042 30 238 | financial_reports |
134 Pascal User Manual 5. If Ch is a variable of type Cd: or subrange of Char then Read (F Ch) assigns the chal Icier at the current position of file F or the value of Fi to I. followed by a Get (F) the choice being implementation- dependent. 6. If a parameter v is of tYll' I nteger or a subrange of Integer then Read accel'ts a sequence of characters forming a signed integer witl possible leading blanks. The integer value denoted by this I.~quence is then assigned to v. 7. If a parameter v is of type: 1 l Read accepts a sequence of characters forming a signee number with possible leading blanks. The real value deno l~d by this sequence is then assigned to v. In scanning F (skipping blank ) to read numbers Read may also skip end-of-line markers. F l~ left positioned to the non-digit character following the last digit l \)flstituting a number. To correctly read consecutive numbers separa e them by blanks or put them on separate lines. Read accepts the longest sequence of digits and if two numbers are not separated Read cannot distinguish them as two numbers (and neither can people!) Examples: Read and process a sequence of numbers where the last value is immediately followed by an asterisk. Assume F to be a textfile x and Ch to be variables oftypes Intege (or Real) and Char respectively. Perhaps a more common situ Ition is when there is no way of knowing how many data items arc to be read. and there is no special symbol that terminates the list. T.o convenient schemata are show below. They make use of procedur .. ; k ipBlanks: Reset(F); repeat Read(F X Ch); P (X) until Ch = '*' procedure SkipBlanks (v IF: Text); var Done: Boolean; begin Done := False; | manuals |
VII – S ELECTION CRITERIA VIII – E VIDENCE F OR S ELECTION $^{2}$ The same institution or agency. $^{3}$ The same institution or agency. Page 5 of 6 The signatory declares that the person has already provided the documentary evidence for a previous procedure and confirms that there has been no change in its situation: The person is not required to submit the evidence if it has already been submitted for another procurement procedure of the same contracting authority $^{3}$. The documents must have been issued no more than one year before the date of their request by the contracting authority and must still be valid at that date. The signatory declares that the above-mentioned person is able to provide the necessary supporting documents listed in the relevant sections of the tender specifications and which are not available electronically upon request and without delay. The person is not required to submit the evidence if it has already been submitted for another award procedure of the same contracting authority $^{2}$. The documents must have been issued no more than one year before the date of their request by the contracting authority and must still be valid at that date. The signatory declares that the person has already provided the documentary evidence for a previous procedure and confirms that there has been no change in its situation: Document Full reference to previous procedure Insert as many lines as necessary. (1) declares that the above-mentioned person complies with the selection criteria applicable to it individually as provided in the tender specifications: YES NO (a) It has the legal and regulatory capacity to pursue the professional activity needed for performing the contract as required in the Tender Specifications; (b) It fulfils the applicable economic and financial criteria indicated in the Tender Specifications; (c) It fulfils the applicable technical and professional criteria indicated in the Tender Specifications. (2) If the above-mentioned person is the sole tenderer or the leader in case of joint tender declares that: YES NO N/A (d) the tenderer including all members of the group in case of joint tender and including subcontractors if applicable complies with all the selection criteria for which a consolidated assessment will be made as provided in the tender specifications. Document Full reference to previous procedure Insert as many lines as necessary. | government_tenders |
MANAGEMENT’S DISCUSSION & ANALYSIS OF FINANCIAL CONDITION AND RESULTS OF OPERATIONS INTEREST SENSITIVITY AND DISCLOSURES ABOUT MARKET RISK continued The Corporation places its greatest credence in net interest income simulation modeling. The above GAP/Interest Rate Sensitivity Report is believed by the Corporation's management to have two major shortfalls. The GAP/Interest Rate Sensitivity Report fails to precisely gauge how often an interest rate sensitive product reprices nor is it able to measure the magnitude of potential future rate movements. Net interest income simulation modeling or earnings-at-risk measures the sensitivity of net interest income to various interest rate movements. The Corporation's asset liability process monitors simulated net interest income under three separate interest rate scenarios; base rising and falling. Estimated net interest income for each scenario is calculated over a 12-month horizon. The immediate and parallel changes to the base case scenario used in the model are presented below. The interest rate scenarios are used for analytical purposes and do not necessarily represent management's view of future market movements. Rather these are intended to provide a measure of the degree of volatility interest rate movements may introduce into the earnings of the Corporation. The base scenario is highly dependent on numerous assumptions embedded in the model including assumptions related to future interest rates. While the base sensitivity analysis incorporates management's best estimate of interest rate and balance sheet dynamics under various market rate movements the actual behavior and resulting earnings impact will likely differ from that projected. For mortgage-related assets the base simulation model captures the expected prepayment behavior under changing interest rate environments. Assumptions and methodologies regarding the interest rate or balance behavior of indeterminate (dollars in thousands) At December 31 2003 ----------------------------------------------------------------------------------------------------------------------------------- 1-180 DAYS 181-365 DAYS 1-5 YEARS BEYOND 5 YEARS TOTAL =================================================================================================================================== Rate-Sensitive Assets: Federal funds sold and interest-bearing deposits ........ $ 40 556 $ 40 556 Investment securities ................................... 36 876 $ 24 045 $ 136 084 $ 159 792 356 797 Loans ................................................... 1 012 808 326 043 870 082 147 613 2 356 546 Federal Reserve and Federal Home Loan Bank stock ........ 15 502 15 502 ---------- ---------- ---------- ---------- ---------- Total rate-sensitive assets ........................ 1 105 742 350 088 1 006 166 307 405 2 769 401 ---------- ---------- ---------- ---------- ---------- Rate-Sensitive Liabilities: Interest-bearing deposits ............................... 1 411 925 224 461 383 135 4 379 2 023 900 Securities sold under repurchase agreements ............. 71 095 71 095 Federal Home Loan Bank advances ......................... 7 750 15 000 80 341 109 688 212 779 Trust preferred securities .............................. 57 188 57 188 Other short-term borrowings ............................. 1 514 1 514 Other borrowed funds .................................... 10 594 30 000 40 594 ---------- ---------- ---------- ---------- ---------- Total rate-sensitive liabilities ................... 1 502 878 239 461 463 476 201 255 2 407 070 ---------- ---------- ---------- ---------- ---------- Interest rate sensitivity gap by period .................... $ (397 136) $ 110 627 $ 542 690 $ 106 150 Cumulative rate sensitivity gap ............................ (397 136) (286 509) 256 181 362 331 Cumulative rate sensitivity gap ratio at December 31 2003 .................................... 73.6% 83.6% 111.6% 115.1% at December 31 2002 .................................... 111.8% 85.2% 98.2% 113.8% The Corporation had a cumulative negative gap of $286 509 000 in the one-year horizon at December 31 2003 just over 9.3 percent of total assets. 13 | financial_reports |
Distributing Python Modules Release 3.9.5 Appendix D. Copyright 46 | manuals |
Exhibit 12.2 Certification by the Chief Financial OfficerPursuant to Section 302 of the Sarbanes-OxleyAct of 2002 I Shu Yeh certify that: 1. I have reviewed this annual report on Form 20-F of Chunghwa Telecom Co. Ltd.; 2. Based on my knowledge this report does not contain any untrue statement of a material fact or omit to state a material fact necessary to make the statements made in light of the circumstances under which such statements were made not misleading with respect to the period covered by this report; 3. Based on my knowledge the financial statements and other financial information included in this report fairly present in all material respects the financial condition results of operations and cash flows of the company as of and for the periods presented in this report; 4. The company’s other certifying officer(s) and I are responsible for establishing and maintaining disclosure controls and procedures (as defined in Exchange Act Rules 13a-15(e) and 15d-15(e)) and internal control over financial reporting (as defined in Exchange Act Rules 13a-15(f) and 15d-15(f)) for the company and have: (a) Designed such disclosure controls and procedures or caused such disclosure controls and procedures to be designed under our supervision to ensure that material information relating to the company including its consolidated subsidiaries is made known to us by others within those entities particularly during the period in which this report is being prepared; (b) Designed such internal control over financial reporting or caused such internal control over financial reporting to be designed under our supervision to provide reasonable assurance regarding the reliability of financial reporting and the preparation of financial statements for external purposes in accordance with generally accepted accounting principles; (c) Evaluated the effectiveness of the company’s disclosure controls and procedures and presented in this report our conclusions about the effectiveness of the disclosure controls and procedures as of the end of the period covered by this report based on such evaluation; and (d) Disclosed in this report any change in the company’s internal control over financial reporting that occurred during the period covered by the annual report that has materially affected or is reasonably likely to materially affect the company’s internal control over financial reporting; and 5. The company’s other certifying officer(s) and I have disclosed based on our most recent evaluation of internal control over financial reporting to the company’s auditors and the audit committee of the company’s board of directors (or persons performing the equivalent functions): (a) All significant deficiencies and material weaknesses in the design or operation of internal control over financial reporting which are reasonably likely to adversely affect the company’s ability to record process summarize and report financial information; and (b) Any fraud whether or not material that involves management or other employees who have a significant role in the company’s internal control over financial reporting. 14 Date: April 20 2011 By: Shu Yeh Chief Financial Officer Name: Title: | financial_reports |
TRANSFERRING FUEL FROM FORWARD TO AFT STORAGE TANKS WHILE FEEDING ENGINES FROM SERVICE TANKS ~ TRANSrER PU .. P ~! TH RE:L£T Y&-Yt ""’ ~~ ~~\2fUT~ ITIO N "-.. Open outlet valves of tank from which it is desired _to transfer fuel. Use transfer pump. K-3 thru K-10 " "’ I fSTR A:NERS I Fig. XXVIII-i TRANSFERRING FUEL FROM AF’I’ TO FORWARD STORAGE TANKS WHILE FEEDING ENGINES FROM SERVICE TANKS Open outlet va~ves of tanks from which it is desired to transfer fuel. Use trans£er pump. K-3 thru K-10 F’rg. XXVIII-j -76- | laws_and_regulations |
Chromium standard for AAS 1000 mg/kg Cr in nitric acid 100 ml 1 Calcium standard solution 1000 mg/l Ca in nitric acid 100 ml 1 Magnesium Standard for AAS 1000mg/l Mg in nitric acid 100 ml 1 Iridium atomic absorption standard solution 1000 µg/ml Ir in nitric acid 100 ml 1 Zinc Standard for AAS 1000 mg/kg Zn in nitric acid 100 ml 1 Cobalt Standard for AAS 1000 mg/kg Co in nitric acid 100 ml 1 Boron Standard for AAS 1000 mg/kg B in nitric acid 100 ml 1 Molybdenum Standard for AAS 1000 mg/l Mo in nitric acid 100 ml 1 Aluminium Standard for AAS 1000 mg/kg Al in nitric acid 100 ml 1 Cadmium Standard for AAS 1000 Cd mg/kg in nitric acid 100 ml 1 Nickel Standard for AAS 1000 mg/kg Ni in nitric acid 100 ml 1 Sodium Standard for AAS 1000 mg/kg Na in nitric acid 100 ml 1 Titanium Standard for AAS 1000 mg/L Ti in nitric acid 100 ml 1 Page 49 of 76 EN-c4f_annexiitechspeciiitechoffer_en.docx August 2020 EN-c4f_annexiitechspeciiitechoffer_en.docx | government_tenders |
Preface The Weight-Shift Control (WSC) Aircraft Flying Handbook introduces the basic pilot knowledge and skills that are essential for piloting WSC aircraft. It introduces pilots to the broad spectrum of knowledge that is needed as they progress in their pilot training. This handbook is for student pilots as well as those pursuing more advanced pilot certifi cates. Student pilots learning to fly WSC aircraft certificated pilots preparing for additional WSC ratings or who desire to improve their fl ying proficiency and aeronautical knowledge and commercial WSC pilots teaching WSC students how to fl y should find this handbook helpful. This book introduces the prospective pilot to the realm of WSC flight and provides information and guidance to all WSC pilots in the performance of various maneuvers and procedures. This handbook conforms to pilot training and certification concepts established by the Federal Aviation Administration (FAA). There are different ways of teaching as well as performing flight procedures and maneuvers and many variations in the explanations of aerodynamic theories and principles. This handbook adopts a selective method and concept to fl ying WSC aircraft. The discussions and explanations reflect the most commonly used practices and principles. Occasionally the word “must” or similar language is used where the desired action is deemed critical. The use of such language is not intended to add to interpret or relieve a duty imposed by Title 14 of the Code of Federal Regulations (14 CFR). It is essential for persons using this handbook also to become familiar with and apply the pertinent parts of 14 CFR and the Aeronautical Information Manual (AIM). Performance standards for demonstrating competence required for pilot certification are prescribed in the appropriate WSC practical test standard. This handbook is available for download in PDF format from the FAA website www.faa.gov. This handbook is published by the United States Department of Transportation Federal Aviation Administration Airman Testing Standards Branch AFS-630 P.O. Box 25082 Oklahoma City OK 73125. Comments regarding this publication should be sent in email form to the following address: [email protected] iii | laws_and_regulations |
MOVADO GROUP INC. ANNUAL REPORT 2001 | financial_reports |
MongoDB Documentation Release 3.0.4 Collection on all mongod Instances On startup each mongod instance inserts a document into startup_log (page 653) with diagnostic informa- tion about the mongod instance itself and host information. startup_log (page 653) is a capped collection. This information is primarily useful for diagnostic purposes. Example Consider the following prototype of a document from the startup_log (page 653) collection: Documents in the startup_log (page 653) collection contain the following fields: Includes the system hostname and a millisecond epoch value. The system’s hostname. A UTC ISODate value that reflects when the server started. A string that reports the startTime (page 653) in the system’s local time zone. An embedded document that reports the mongod runtime options and their values. The process identifier for this process. An embedded document that reports information about the build environment and settings used to compile this mongod . This is the same output as buildInfo . See buildInfo . 9.4. Replication Reference 653 local.startup_log. buildinfo local.startup_log. pid local.startup_log. cmdLine local.startup_log. startTimeLocal local.startup_log. startTime local.startup_log. hostname local.startup_log. _id { "_id" : "<string>" "hostname" : "<string>" "startTime" : ISODate("<date>") "startTimeLocal" : "<string>" "cmdLine" : { "dbpath" : "<path>" "<option>" : <value> } "pid" : <number> "buildinfo" : { "version" : "<string>" "gitVersion" : "<string>" "sysInfo" : "<string>" "loaderFlags" : "<string>" "compilerFlags" : "<string>" "allocator" : "<string>" "versionArray" : [ <num> <num> <...> ] "javascriptEngine" : "<string>" "bits" : <number> "debug" : < boolean > "maxBsonObjectSize" : <number> } } local. startup_log | manuals |
OTHER CHARGES INCOME NET Princeton Property Sale Sodium Sulfate Assets Sale Legal Matters Environmental Charges Net at Operating Sites Other Net On March 18 2008 we completed the sale of our 158-acre Princeton research center to the Princeton HealthCare System. Gross proceeds from the sale were $62.5 million and net proceeds after off sets commissions and fees totaled approximately $60 million. The gain on sale was $29 million and is included in “Restructuring and other charges (income)” in the consolidated statements of income for the year ended December 31 2008. The gain on sale was reduced by the sale-leaseback deferral described below. As part of the sale we entered into a sale-leaseback under which certain of the buildings sold to the Princeton HealthCare System were leased back to us for a maximum period up to approximately three years. The leaseback was accounted for as an operating lease and the present value of the lease payments was deferred as part of the gain on sale. At the time of the sale we recorded a deferred gain in the amount of $6.7 million. This amount was being recognized as a reduction of rent expense over the term of the lease. During the third quarter of 2009 we moved into our new research and development facility and as a result we exited our leases with the Princeton HealthCare System. Th e event resulted in a net gain of $2.3 million since the amounts we deferred as part of the gain on sale assumed a longer lease period. In February 2008 we completed the sale of Foret’s non-cogeneration sodium sulfate assets. We recognized a gain on sale of these assets of $3.6 million which is included in “Restructuring and other charges (income)” in the consolidated statements of income for the year ended December 31 2008. Net proceeds from the transaction were $16.7 million. We did not complete the sale of the sodium sulfate co-generation facility at the time we sold the other sodium sulfate assets noted above. We completed the sale of this asset in the third quarter of 2009 for a gain of $1.0 million. During the year ended December 31 2010 we recorded $1.5 million of net charges primarily related to a legal settlement associated with the U.S. hydrogen peroxide matter in our Industrial Chemicals segment. During the year ended December 31 2009 we recorded an approximate charge of $21.0 million in connection with the resolution of a regulatory matter in our Industrial Chemicals Segment. We also recorded a charge of $3.3 million related to the settlement of a legal matter in our Industrial Chemicals segment and $5.6 million of other charges primarily representing settlements with state authorities for property claims and adjustments. During the year ended December 31 2008 we reached an agreement in principle to settle a federal class action lawsuit alleging violations of antitrust laws involving our hydrogen peroxide product in our Industrial Chemicals segment in the amount of $10.0 million. See Note 18 for further details. During the years ended December 31 2010 2009 and 2008 we recorded $14.2 million $20.2 million and $16.2 million of net charges respectively related to environmental remediation at continuing operating sites. See Note 10 for additional details. In the second quarter of 2010 our Agricultural Products segment acquired certain rights relating to an herbicide compound still under development. We expensed $5.7 million for these rights. In 2006 our Agricultural Products segment entered into a development agreement with a third-party company whereby we were given the right to develop further one of the third party company’s products in certain geographic markets. This development agreement representing a fungicide project was terminated by the Company in 2008. In 2007 our Agricultural Products segment entered into a collaboration and license agreement with another third-party company for the purpose of obtaining certain technology and intellectual property rights. In 2007 we acquired further rights under the development agreement and in 2009 we extended our rights under the collaboration and license agreement. We have recorded charges of $0.5 million $2.0 million and $1.0 million in 2010 2009 and 2008 respectively under these agreements representing payments to acquire and extend our rights under these agreements. Remaining other charges for 2010 2009 and 2008 primarily represents the accrual of interest associated with the European Commission fi ne recorded during the year ended December 31 2006. See Note 18. 48 FMC CORPORATION 2010 Form 10K (in Millions) Year Ended December 31 2010 2009 2008 Princeton Property Sale $ — $(2.3) $(29.0) Sodium Sulfate Assets Sale — (1.0) (3.6) Legal Matters 1.5 29.9 10.0 Environmental Charges Net at Operating Sites (see Note 10) 14.2 20.2 16.2 Other net 9.0 4.5 3.8 OTHER CHARGES (INCOME) NET $24.7 $51.3 $(2.6) PART II NOTE 7 Restructuring and Other Charges (Income) | financial_reports |
Y Other financial liabilities (current) Z Other current liabilities (iv) Significant adjustments to consolidated statement of cash flows for the year ended 31 March 2013 (Presentation) Short-term finance lease liabilities and guaranty deposits received included in “Other” as current liabilities under Japanese GAAP have been included in “Other financial liabilities” (current) under IFRS. (Presentation) Income tax payable included in “Other” as current liabilities under Japanese GAAP has been presented separately as “Income tax payable” under IFRS. Significant difference between the consolidated statements of cash flows prepared and disclosed in accordance with Japanese GAAP and those prepared and disclosed in accordance with IFRS are as follows: The expenditures associated with research and develop- ment were classified as cash flows from operating activities under Japanese GAAP because they were expensed as incurred while under IFRS the capitalised research and devel- opment costs have been classified as cash flows from invest- ing activities. Liabilities arising from certain in-licensing agreements were included in “Other” as current liabilities under Japanese GAAP. However they have been included in “Trade and other pay- ables” (current) under IFRS. Certain liabilities included in “Accrued expenses” separately presented as current liabilities under Japanese GAAP have been included in “Other current liabilities” under IFRS. (Recognition and measurement) Accrued paid absences of ¥4 841 million not recognised under Japanese GAAP have been recognised and included in “Other current liabilities” under IFRS. Astellas Pharma Inc. _ Annual Report 2014 164 | financial_reports |
unIteD teChnologIeS BuIlDIng haRtFoRD ConneCtICut 06101 u.S.a. www.utc.com hamIlton SunDStRanD otIS pRatt & WhItney SIkoRSky utC ClImate ContRolS & SeCuRIty | financial_reports |
1. Introduction Silicon nitride-based waveguides form a promising CMOS-compatible platform in inte- grated photonics research [1]. Especially stoichiometric silicon nitride (Si$_{3}$N$_{4}$) deposited using low-pressure chemical vapor deposition (LPCVD) offers extremely low intrinsic losses and superior reproducibility. Further advantages of this platform are a broad transparency ranging from the visible [2] to the mid-infrared a high index contrast and absence of two-photon absorption in the near-infrared including all the telecom- munication bands. Due to their low propagation losses in the C-band as well as their low coupling losses by using spot-size converters Si$_{3}$N$_{4}$ waveguides are favored in the field of microwave photonics [3 4] and for novel types (glass-semiconductor) lasers with record low spectral bandwidth [5 6]. Furthermore ultra-low propagation losses in the C-band of 0.32 dB/m have been demonstrated with weakly confined modes using 40 nm thin Si$_{3}$N$_{4}$ waveguides [7 8]. The low confinement of the mode however has the draw- back of increased bending losses and as a consequence limit the density of devices in integrated circuits. Further applications of Si$_{3}$N$_{4}$ waveguides are e.g. bio-chemical applications such as optical coherence tomography [9] and lab-on-a-chip devices due to the compatibility of Si$_{3}$N$_{4}$ waveguides with microfluidic channels [10 11]. Furthermore Si$_{3}$N$_{4}$ waveguides are of high interest for nonlinear integrated photon- ics [1] due to their high Kerr index [12] while supporting highly confined modes due to their high index contrast and lacking nonlinear losses in the near-infrared. Nonlinear effects such as supercontinuum generation [13] and parametric frequency comb gener- ation [14] have been demonstrated. For the latter huge potential in nonlinear optical signal processing was shown by transmitting a data stream of 1.44 Tbit/s [15]. It is desir- able to select the waveguides such that the pump wavelength for broadband wavelength conversion lies in the spectral region where laser sources are readily available i.e. 1000 to 2000 nm. However to obtain phase matching for broadband wavelength conversion the dispersion of the waveguide must be engineered such that pump wavelength is in the anomalous dispersion regime while also being close to the zero dispersion wavelength (ZDW). To achieve high modal confinement and to shift the ZDW to the near-infrared the | scientific_articles |
26 Caribbean Utilities Company Ltd. 2011 Annual Report Management’s Discussion and Analysis The table “Quarterly Results” summarises unaudited quarterly information for each of the eight quarters ended March 31 2010 through December 31 2011. This information has been obtained from CUC’s unaudited interim Financial Statements which in the opinion of Management have been prepared in accordance with Canadian GAAP. These operating results are not necessarily indicative of results for any future period and should not be relied upon to predict future performance. Net earnings for the Fourth Quarter 2011 were $5.1 million a 9% or $0.4 million increase when compared to $4.7 million for the Fourth Quarter 2010. Operating Income for the Fourth Quarter 2011 decreased when compared to Fourth Quarter 2010 due to increased G&A and Depreciation costs partially offset by increased Electricity Sales. This change in Operating Income was offset by a decrease in Finance Charges and an increase in Other Income resulting in an overall increase in earnings quarter over quarter. After the adjustment for dividends on the preference shares of the Company earnings on Class A Ordinary Shares for the Fourth Quarter 2011 were $4.5 million or $0.15 per Class A Ordinary Share as compared to $4.0 million or $0.15 per Class A Ordinary Share for the Fourth Quarter 2010. The Company calculates earnings per share on the weighted average number of Class A Ordinary Shares outstanding. The weighted average Class A Ordinary Shares outstanding were 28 523 127 and 28 351 734 for the years ended December 31 2011 and December 31 2010 respectively. After the adjustment for dividends on the preference shares of the Company earnings on Class A Ordinary Shares for the Second Quarter 2011 were $5.8 million or $0.20 per Class A Ordinary Share a decrease of $0.3 million when compared to $6.1 million or $0.21 per Class A Ordinary Share for the Second Quarter 2010. Net earnings for the three months ended June 2011 (“Second Quarter 2011”) totalled $5.9 million a decrease of $0.3 million or 5% when compared to $6.2 million for the three months ended June 2010 (“Second Quarter 2010”). A 3% decline in kWh sales and higher general and administration consumer service and T&D costs were partially offset by an increase in Other Income and lower finance charges for the Second Quarter 2011 when compared to the Second Quarter 2010. After the adjustment for dividends on the preference shares of the Company earnings on Class A Ordinary Shares for the Third Quarter 2011 were $6.1 million or $0.22 per Class A Ordinary Share a decrease of $0.4 million when compared to $6.5 million or $0.23 per Class A Ordinary Share for the Third Quarter 2010. Net earnings for the three months ended September 2011 (“Third Quarter 2011”) totalled $6.3 million a decrease of $0.3 million or 5% when compared to $6.6 million for the three months ended September 2010 (“Third Quarter 2010”). A 1% decline in kWh sales and higher general and administration transmission and distribution and finance costs were partially offset by a decrease in consumer service and maintenance costs for the Third Quarter 2011 when compared to the Third Quarter 2010. Net earnings for the three months ended March 2011 (“First Quarter 2011”) totalled $3.1 million an increase of $0.6 million in comparison to $2.5 million for the three months ended March 2010 (“First Quarter 2010”) due to 1.5% kWh sales growth for the period and lower transmission and distribution and maintenance expenses which were partially offset by higher depreciation expense. After the adjustment for dividends on the preference shares of the Company earnings on Class A Ordinary Shares for the First Quarter 2011 were $3.0 million or $0.11 per Class A Ordinary Share an increase of $0.7 million over the $2.3 million or $0.08 per Class A Ordinary Share for the First Quarter 2010. The President and Chief Executive Officer (“CEO”) and the Chief Financial Officer (“CFO”) together with Management have established and maintained the Company’s disclosure controls and procedures (“DC&P”) to provide reasonable assurance that material information relating to the Company is made known to them by others particularly during Fiscal 2011; and information required to be disclosed by the issuer in its annual filings interim filings or other reports filed or submitted by it under securities legislation is recorded processed summarized and reported within the time periods specified in securities legislation. Based on the evaluation performed over disclosure controls and procedures it was concluded that the DC&P of CUC are adequately designed and operating effectively as of December 31 2011. Disclosure Controls and Procedures June 2011/June 2010 December 2011/December 2010 Quarterly Results September 2011/September 2010 March 2011/March 2010 | financial_reports |
California Bank of Commerce NOTES TO FINANCIAL STATEMENTS 1. SUMMARY OF SIGNIFICANT ACCOUNTING POLICIES (Continued) 2. FAIR VALUE MEASUREMENTS In June 2011 the FASB amended existing guidance and eliminated the option to present the components of other comprehensive income as part of the statement of changes in shareholder’s equity. The amendment requires that comprehensive income be presented in either a single continuous statement or in two separate consecutive statements. Early adoption is permitted. The adoption of this amendment will change the presentation of the components of comprehensive income for the Bank as part of the statement of changes in shareholder’s equity and comprehensive income. The guidance will be adopted by the Bank effective for the year ended December 31 2012. In May 2011 the FASB issued an amendment to achieve common fair value measurement and disclosure requirements between U.S. and International accounting principles. Overall the guidance is consistent with existing U.S. accounting principles; however there are some amendments that change a particular principle or requirement for measuring fair value or for disclosing information about fair value measurements. The Bank will adopt this guidance effective for the year ended December 31 2012 and its adoption is not expected to have a material impact on the Bank’s operating results or financial condition. The estimated carrying and fair values of the Bank’s financial instruments are as follows: December 31 2011 December 31 2010 Carrying Fair Carrying Fair Amount Value Amount Value Financial assets: Cash and cash equivalents $ 46 962 082 $ 46 962 082 $ 10 223 291 $ 10 223 291 Investment securities 36 349 666 36 349 666 50 359 618 50 359 618 Loans held for sale 372 173 373 062 1 390 100 1 395 653 Loans net 203 572 096 230 720 589 170 073 533 189 012 475 Federal Home Loan Bank stock 1 178 200 N/A 846 000 N/A The Independent Banker’s Bank stock 50 419 N/A 50 419 N/A Pacific Coast Banker’s Bank stock 190 000 N/A 190 000 N/A Accrued interest receivable 979 809 979 809 795 475 795 475 Financial liabilities: Deposits 243 903 390 243 684 501 183 616 664 183 524 127 Other borrowings 18 000 000 17 462 090 28 000 000 27 641 054 Accrued interest payable 59 853 59 853 7 962 7 962 26 Adoption of New Accounting Standards (Continued) Fair Value of Financial Instruments | financial_reports |
PAGE22 NICK BINNS Business Services Manager What are your major responsibilities? Why do you work for Super Cheap Auto? What was your highlight of 2003/04? What is your favourite Super Cheap Auto product? I have overall responsibility for process development and information technology most recently project managing the implementation of the Company’s business process reinvention including the implementation of SAP IS Retail. The experience of helping to build a dynamic retailing business that is an Australian success story providing opportunities for the community. The successful opening of our first seven stores in New Zealand on one day. The vast array of storage boxes is hard to beat and useful in so many ways. SENIOR MANAGEMENT CONTINUED A. I have a B.Sc. (Hons) in Mechanical Engineering. I commenced my career as a Development Engineer with British Aerospace Corporation and then spent five years with the Hughes Aircraft Corporation as a Project Manager involved with the design manufacture and testing of flight simulators. In the seven years prior to joining Super Cheap Auto I worked with a firm of international management consultants focusing on process system and change management. I joined Super Cheap Auto in 2001. Q. Tell us about your experience prior to joining Super Cheap Auto? | financial_reports |
EUOSHA/2021/OP/F/SE/0142 2.6 Volume and value of the contract An indicative estimate of the volumes to be ordered for each lot over the whole duration of the framework contract is given below. These volumes are estimates only and there is no commitment as to the exact quantities to be ordered. The actual volumes will depend on the quantities that the contracting authority orders through specific contracts. In any case the framework contract ceiling i.e. the maximum amount to be spent under the framework contract for each lot shall not be exceeded. The contract(s) resulting from the award of this call for tenders will cover a maximum period of 12 months. The details of the initial contract duration and possible renewals are set out in Article I.3 of the Draft Contract. Depending on the lots the tenderer shall appoint an account manager/event coordinator under the responsibility of an account/project director. The account manager/event coordinator will be the contact for all matters linked to the framework contract and shall guarantee efficient and on-demand responses to EU-OSHA’s communications and requests for quotations contacts and meetings and other administrative requests. The account manager/event coordinator will have knowledge in the field of work of the framework contract and will be the single contact point for interaction with EU-OSHA. The account manager/event coordinator will follow up requests discuss the progress of work and gather additional details related to the services to be delivered and materials to be developed. The account manager/event coordinator will also be responsible for delivering the contractual progress reports that will be requested as stated in Article I.6 of the Model of Framework Contract. Within 10 working days of a specific contract being sent by EU-OSHA to the contractor EU-OSHA should receive it back duly signed and dated. The period allowed for the execution of the task shall start on the date on which the last party signs the specific contract. A kick-off meeting to agree all contractual matters will be organised between the contractor and EU- OSHA after signature of the framework contract(s) at EU-OSHA’s offices in Bilbao Spain (or online depending on the situation with the COVID-19 pandemic). EU-OSHA will arrange a 1-day or 2 half-day kick-off meeting for the key staff identified as being part of the core teams in the call for tender. 39 2.8 Implementation of the framework contract 2.7 Duration of the contract Yearly estimated amount Total estimated amount (4 years) Lot 1: Awareness-raising support to focal points and partners at national level EUR 1 500 000 Up to EUR 6 000 000 Lot 2: Communication and media and stakeholder relationships at EU level EUR 400 000 Up to EUR 1 600 000 Lot 3: Organisation of corporate events EUR 500 000 Up to EUR 2 000 000 | government_tenders |
amount of taxes due together with all penalties and costs accrued by reason of delinquency and require him to eject from the said property all tenants or occupants thereof. The municipal president upon receiving such certificate shall immediately cause all tenants or occupants to be ejected from the property in question and kept therefrom by the municipal police and to that end may employ such force as may be necessary. IaAScD [82-79; 1791-19.] S ECTION 471 . Repayment of Excessive Collections . — When it appears that an assessment of real property was erroneous and unjust when made and the same is reduced more than twenty-five per centum because of such error or injustice and not by reason of dama ge incurred or deterioration suffered by such property subsequently to the date of original assessment the taxpayer shall be entitled to the proper credit for taxes and penalties already actually paid by him in excess of the amount which he should have pa id upon proper assessment such credit to be applicable only to the payment of real-property taxes or penalties due or to become due from such taxpayer upon the same property or other real property belonging to him in the same municipality. aHCSTD Timely notice shall be given by the provincial treasurer to every taxpayer whose assessment is so reduced and he shall be furnished a nontransferable certificate showing the amount of credit to which he is entitled for payments already made and the conditi ons under which such credit may be applied as above provided. SDIaHE If no taxes shall have been paid upon the original assessment the taxpayer shall be allowed sixty days after notice of such reduction within which to pay the proper tax upon the reduced assessment without penalty. But upon his failure to pay the same wit hin said period all the penalties provided by law shall attach as of the date upon which the taxes became delinquent upon the original assessment. ECDHIc [1943-3] [1943-4.] [1943-1 2.] S ECTION 472 . Remission of Tax by Provincial Board. — In case of a general failure of crops or similar widespread disaster the provincial board of any Copyright 2012 CD Technologies Asia Inc. and Accesslaw Inc. Philippine Law Encyclopedia 2011 149 Miscellaneous Provisions ARTICLE V | laws_and_regulations |
Alexandria Real Estate Equities Inc. 2004 Annual Report SCIENCE | financial_reports |
The base image k8spatterns/gomplate contains the template processor and an entry point script that uses the following directories by default: The second ingredient of our example is the ConfigMap holding the parameters. In Example 21-3 we just use a simple file with key-value pairs. A ConfigMap named wildfly-parameters contains this YAML-formatted data refer‐ enced by a key config.yml and is picked up by an init container. Finally we need the Deployment resource for the WildFly server (Example 21-4). Example 21-3. Values for log Configuration Template Example 21-2. Simple Dockerfile for template image FROM k8spatterns/gomplate COPY in /in logFormat : "DEVELOPMENT: %-5p %s%e%n" • /in holds the WildFly configuration templates including the parameterized standalone.xml . These are added directly to the image. • /params is used to look up the Gomplate data sources which are YAML files. This directory is mounted from a ConfigMap-backed Pod volume. • /out is the directory into which the processed files are stored. This directory is mounted in the WildFly application container and used for the configuration. Example 21-4. Deployment with template processor as Init Container apiVersion : extensions/v1beta1 kind : Deployment metadata : labels : example : cm-template name : wildfly-cm-template spec : replicas : 1 template : metadata : labels : example : cm-template spec : initContainers : - image : k8spatterns/example-config-cm-template-init name : init volumeMounts : - mountPath : "/params" Chapter 21: Configuration Template 168 | manuals |
The sum of all quality award criteria (1 – 5) gives a maximum possible total of 420 points . Tenderers must provide a detailed technical offer addressing all points in the technical specifications case studies and each of the quality award criteria. Repetition of mandatory requirements in the technical specifications without providing detail in the technical offer will only result in a very low score. Quality award criteria thresholds: Offers must score at least the minimum level of quality described for each criterion and sub-criterion unless otherwise specified in the criterion description. Tenders that do not reach these minimum quality thresholds will be eliminated from the subsequent stages of the evaluation process. Tenders which passed the quality thresholds will be further assessed to ensure: The price score will be calculated according to the below formulas: TOTAL PRICE SCORE: 1. P oints for profile “Senior expert” Intramuros + 2. Points for profile “Senior expert” Extramuros + 3. P oints for profile “Junior expert” Intramuros + 4. Points for profile “Junior expert” Extramuros • Formula: 70 * lowest daily rate offered among the tenderers who passed the quality award criteria thresholds / daily rate offered for offer under evaluation • Formula: 30 * lowest daily rate offered among the tenderers who passed the quality award criteria thresholds / daily rate offered for offer under evaluation 4. Points for profile “Junior expert” Extramuros (maximum possible 70): 3. P oints for profile “Junior expert” Intramuros (maximum possible 30): • Formula: 70 * lowest daily rate offered among the tenderers who passed the quality award criteria thresholds / daily rate offered for offer under evaluation 2. Points for profile “Senior expert” Extramuros (maximum possible 70): • Formula: 30 * lowest daily rate offered among the tenderers who passed the quality award criteria thresholds / daily rate offered for offer under evaluation 1. P oints for profile “Senior expert” Intramuros (maximum possible 30): II. the financial offer satisfies the formal requirements of the tender specifications. I. the price offer is made within the maximum budget for financial offers indicated in the tender specifications and; B) PRICE AWARD CRITERION (200 points) European Food Safety Authority Via Carlo Magno 1A – 43126 Parma Italy Tel. +39 0521 036 111│ www.efsa.europa.eu | government_tenders |
NOTES TO CONSOLIDATED FINANCIAL STATEMENTS NOTES TO CONSOLIDATED FINANCIAL STATEMENTS DECEMBER 31 2003 2002 2001 DECEMBER 31 2003 2002 2001 The following sets forth the pension plan’s funded status components of pension costs and amounts (in thousands) at the pension plan measurement date of December 31 2003 and September 30 2002: Weighted - Average Assumptions Used to Determine Projected Benefit Obligation as of December 31 2003 and September 30 2002 Weighted - Average Assumptions Used to Determine Net Periodic Benefit Cost as of December 31 2003 and September 30 2002 and 2001 Weighted – Average Assumptions Used to Determine Projected Benefit Obligation as of December 31 2003 and September 30 2002 The Company provides medical and dental benefits to eligible retirees. Currently retirees are offered the same benefits as active employees after taking Medicare into consideration. The following sets forth the other post-retirement benefits’ funded status components of net periodic benefit cost (in thousands) at the measurement date of December 31 2003 and September 30 2002: The pension plan is currently targeting the following asset allocation for 2004: The following table outlines the asset allocation for the pension plan as of December 31: Other Post-Retirement Benefits PENSION BENEFITS 2003 2002 Change in Projected Benefit Obligation: Projected benefit obligation at beginning of year $ 426 885)% $ $^{373 434}$)% Service cost 5 189)% $^{5 539}$)% Interest cost 28 089)% $^{27 238}$)% Actuarial loss 26 166)% $^{37 632}$)% Benefits paid (22 535)% $^{(20 518)}$)% Plan change –)% $^{3 560}$)% PROJECTED BENEFIT OBLIGATION AT END OF PERIOD 463 794)% $^{426 885}$)% Change in Plan Assets: Fair value of plan assets at beginning of year 319 113)% $^{339 838}$)% Actual return on plan assets 80 126)% $^{(20 207)}$% Contributions 48 950)% $^{20 000}$)% Benefits paid (22 535)% $^{(20 518)}$% FAIR VALUE OF PLAN ASSETS AT END OF YEAR 425 654)% $^{319 113}$)% Funded Status (38 140)% $^{(107 772)}$% Unrecognized net actuarial loss 120 995)% $^{144 328}$)% Unrecognized prior service cost 2 927)% $^{3 109}$)% PREPAID PENSION COST $ 85 782)% $ $^{39 665}$)% The amounts recognized in the Consolidated Balance Sheet consist of: Prepaid benefit costs $ 85 782)% $ $^{39 665}$)% Additional minimum liability (123 922)% $^{(147 437)}$% $ (38 140)% $ $^{(107 772)}$% 2003 2002 Discount rate 6.50%) 6.75%) Expected return on plan assets 9.00%) 9.00%) PENSION BENEFITS 2003 2002 2001 Components of Net Periodic Benefit Cost: Service cost $ 5 189)% $ $^{5 539}$)% $ $^{5 544}$)% Interest cost 28 089)% $^{27 238}$)% $^{25 758}$)% Expected return on plan assets (35 109)% $^{(34 497)}$% $^{(29 488)}$% Amortization of net loss (gain) 3 910)% $^{–}$)% $^{(847)}$% Amortization of transition obligation –)% $^{–}$)% $^{(1 158)}$% Amortization of prior service cost 317)% $^{326}$)% $^{34}$)% Net periodic pension benefit cost/(income) $ 2 396)% $ $^{(1 394)}$% $ $^{(157)}$% 2003 2002 2001 Discount rate 6.75%) 7.50%) 8.25%) Expected return on plan assets 9.00%) 9.00%) 7.750%) Rate of compensation increase N/A%) N/A%) N/A%) 2003 2002 Discount rate 6.50%) $^{6.75%}$) Expected return on plan assets 9.00%) $^{9.00%}$) 2003 2002 Equity securities 65%) 61%) Debt securities 25%) 29%) Real estate 8%) 10%) Other 2%) –%) Domestic Equity 47.5%) Non-US Equity 10.0%) Fixed Income 22.5%) Real Estate 5.0%) Private Equity 5.0%) Absolute Return 10.0%) P N M R E S O U R C E S • 2 0 0 3 A n n u a l R e p o r t t o S h a r e h o l d e r s 68 69 OTHER BENEFITS 2003 2002 Change in Benefit Obligation: Benefit obligation at beginning of year $ 117 796)% $ $^{109 408}$)% Service cost 3 086)% $^{2 694}$)% Interest cost 7 840)% $^{8 082}$)% Plan participant’s contributions 1 534)% $^{795}$)% Amendments (18 720)% $^{(31 960)}$% Unrecognized actuarial loss 10 187)% $^{32 623}$)% Expected benefit paid (6 911)% $^{(3 846)}$% BENEFIT OBLIGATION AT END OF PERIOD 114 812)% $^{117 796}$)% Change in Plan Assets: Fair value of plan assets at beginning of year 37 387)% $^{40 594}$)% Actual return on plan assets 11 055)% $^{(6 478)}$% Employer contribution 7 892)% $^{6 322}$)% Participant contribution 1 534)% $^{795}$)% Benefits paid (6 911)% $^{(3 846)}$% Fair value of plan assets at end of year 50 957)% $^{37 387}$% Funded Status (63 855)% $^{(80 409)}$% Employer contribution after measurement date –)% $^{1 538}$)% Unrecognized net transition obligation 16 354)% $^{18 171}$)% Unrecognized net actuarial loss 72 987)% $^{74 048}$)% Unrecognized prior service cost (48 087)% $^{(31 960)}$% ACCRUED POST-RETIREMENT COSTS $ (22 601)% $ $^{(18 612)}$% | financial_reports |
Introduction Weight and Balance Control Chapter 1 There are many factors in the safe and efficient operation of aircraft including proper weight and balance control. The weight and balance system commonly employed among aircraft consists of three equally important elements: the weighing of the aircraft the maintaining of the weight and balance records and the proper loading of the aircraft. An inaccuracy in any one of these elements defeats the purpose of the system. The final loading calculations are meaningless if either the aircraft has been improperly weighed or the records contain an error. Improper loading decreases the effic ency and performance of an aircraft from the standpoint of altitude maneuverability rate of climb and speed. It may even be the cause of failure to complete the flight or for that matter failure to start the flight. Because of abnormal stresses placed upon the structure of an improperly loaded aircraft or because of changed fly ng characteristics of the aircraft loss of life and destruction of valuable equipment may result. | laws_and_regulations |
Figure 4-6. Learners can improve their listening skills by applying the steps to effective listening. Listening for main ideas is another listening technique. Primarily a technique for listening to a lecture or formal lesson presentation it sometimes applies to hands-on situations as well. People who concentrate on remembering or recording facts might very well miss the message because they have not picked up on the big picture. A listener should always ask what is the purpose of what I am listening to? By doing this the listener can relate the words to the overall concept. The instructor should ensure that the learner is aware of the danger of daydreaming. Most people can listen much faster than even the fastest talker can speak. This leaves room for the mind to get off onto some other subject. The listener who is aware of this problem can concentrate on repeating paraphrasing or summarizing the speaker’s words. Doing so uses the extra time to reinforce the$_{ }$ speaker’s words allowing the learner to retain more of the information.$_{ }$ Nobody can remember everything. Note taking allows the learner to use an organized system to reconstruct what was said during the lesson. Every learner has a slightly different system but no attempt to record the lecture verbatim should be made. In most cases a shorthand or abbreviated system of the learner’s choosing should be encouraged. Notetaking is merely a method of allowing the learner to recreate the lecture so that it can be studied. The same notetaking skills can be used outside the classroom any time information needs to be retained. For example copying an instrument clearance word for word is very difficult. By knowing the format of a typical clearance learner instrument pilots can develop their own system of abbreviations. This allows them to copy the clearance in a useful form for read back and for flying the clearance. By incorporating all or some of these techniques learners retain more information. Instructors can vastly improve retention of information by making certain their learners have the best possible listening skills. 4-9 | laws_and_regulations |
Dans le rØgime linØaire des faibles perturbations l’amplitudede l’oscillation de la prØcession est proportionnelle au courant radiofrØquence. Comme le rØsonateur 164 est un ØlØment magnØto-rØsistif la rØsistance du rØsonateur 164 dØpend directement de l’amplitudede l’oscillation de la prØcession de l’aimantation.Il en rØsulteque la rØsistance du rØsonateur 164 oscille Øgalement. Comme le courant radiofrØquence injectØ et la rØsistance du rØsonateur 164 oscillent àla mŒmefrØquence (ou àdes frØquences proches) une tension continue (c’est- à-direrectifiØe) apparaîtentre les deux bornes du rØsonateur 164. Ce phØnomŁne est appelØ diode de spin. Il est ànoter que lorsque l’effet de diode de spin est utilisØ dans le contexte d’un procØdØ de dØtection l’effetde diode de spin est parfois dØnommØ rØsonance ferromagnØtique induite par transfert de spin (dØnomination plus connue sous le sigle ST- FMR). La tension rectifiØe entre les deux bornes du rØsonateur 164 s’exprime comme : tandis que le deuxiŁme terme — $_{ΐ}$- (/ ( ) ( ) est le terme de diode de spin. Le terme de diode de spin est proportionnel à(/ ) . De plus le terme de diode de spin est une somme pondØrØed’unecomposante Lorentzienne et d’unecomposante anti-Lorentzienne correspondant aux variations de l’amplitude de l’oscillation de l’aimantation soit en phase soit en quadrature de phase avec le courant radiofrØquence Une fonction Lorentzienne ( $_{0}$ ) est dØfinie par : Une fonction antiLorentzienne ( $_{0}$ ) est dØfinie par : Dans ces expressions 0 est la frØquence de rØsonance et est la largeur de bande du rØsonateur correspondant àla largeur de la bande de frØquence dans laquelle la rØponse du rØsonateur est ØlevØe. La composante anti-Lorentzienne du terme de diode de spin est prØpondØrantepar rapport àla composante Lorentzienne lorsque le courant radiofrØquence l ? F gØnŁre un 2 ( $_{0}$ ) = Q — $^{2}$)2 + ( ) 2 | patents |
Replication with Global Transaction Identifiers use existing_replica_hostname -relay-bin.index . Alternatively if you have already tried to start the new replica after following the remaining steps in this section and have encountered errors like those described previously then perform the following steps: a. If you have not already done so issue STOP REPLICA | SLAVE on the new replica. If you have already started the existing replica again issue STOP REPLICA | SLAVE on the existing replica as well. b. Copy the contents of the existing replica’s relay log index file into the new replica’s relay log index file making sure to overwrite any content already in the file. c. Proceed with the remaining steps in this section. 4. When copying is complete restart the existing replica. 5. On the new replica edit the configuration and give the new replica a unique server ID (using the server_id system variable) that is not used by the source or any of the existing replicas. 6. Start the new replica server ensuring that replication does not start yet by specifying the --skip- slave-start option or from MySQL 8.0.24 the skip_slave_start system variable. Use the Performance Schema replication tables or issue SHOW REPLICA | SLAVE STATUS to confirm that the new replica has the correct settings when compared with the existing replica. Also display the server ID and server UUID and verify that these are correct and unique for the new replica. 7. Start the replica threads by issuing a START REPLICA | SLAVE statement. The new replica now uses the information in its connection metadata repository to start the replication process. 17.1.3 Replication with Global Transaction Identifiers This section explains transaction-based replication using global transaction identifiers (GTIDs). When using GTIDs each transaction can be identified and tracked as it is committed on the originating server and applied by any replicas; this means that it is not necessary when using GTIDs to refer to log files or positions within those files when starting a new replica or failing over to a new source which greatly simplifies these tasks. Because GTID-based replication is completely transaction-based it is simple to determine whether sources and replicas are consistent; as long as all transactions committed on a source are also committed on a replica consistency between the two is guaranteed. You can use either statement-based or row-based replication with GTIDs (see Section 17.2.1 “Replication Formats” ); however for best results we recommend that you use the row-based format. GTIDs are always preserved between source and replica. This means that you can always determine the source for any transaction applied on any replica by examining its binary log. In addition once a transaction with a given GTID is committed on a given server any subsequent transaction having the same GTID is ignored by that server. Thus a transaction committed on the source can be applied no more than once on the replica which helps to guarantee consistency. This section discusses the following topics: •How GTIDs are defined and created and how they are represented in a MySQL server (see Section 17.1.3.1 “GTID Format and Storage” ). •The life cycle of a GTID (see Section 17.1.3.2 “GTID Life Cycle” ). •The auto-positioning function for synchronizing a replica and source that use GTIDs (see Section 17.1.3.3 “GTID Auto-Positioning” ). •A general procedure for setting up and starting GTID-based replication (see Section 17.1.3.4 “Setting Up Replication Using GTIDs” ). 3450 | manuals |
by particles of species 1 (smaller species) and the nematic phase by particles of species 2 (larger species). The biphasic region where there is coexistence between the isotropic and nematic phase is very narrow in FMT. At zero composition Onsager theory predicts a density jump of ∼ 22% whereas this is only ∼ 9% for FMT which agrees more closely to simulation results of 8% [61]. The bifurcation concentration for FMT is c ∗ = 0 . 434 at x = 0 and c ∗ = 0 . 434 /λ 3 = 0 . 326 at x = 1. The spinodal for FMT lies closer to the isotropic phase boundary than the nematic phase boundary (whereas the converse is true for Onsager theory). Fig. 1b shows the same results but in the ( c$_{1}$ c$_{2}$ ) representation. The results for both theories again interpolate smoothly between the two pure limits. The two branches of the binodal in this representation move from the c$_{1}$ -axis to the c$_{2}$ -axis with increasing composition. Hence the tie lines move from being horizontal on the c$_{1}$ -axis to vertical on the c$_{2}$ -axis. In the ( x p ∗ ) representation (Fig. 1c) the tie lines are horizontal due to the requirement of equal pressure in the coexisting phases. The spinodal lies above the nematic branch of the binodal in this representation because it is obtained by inserting the bifur- cation densities into the isotropic equation of state which yields a higher pressure than the coexistence value. The binodal obtained from FMT is located at significantly smaller densities as compared to that from Onsager theory. The isotropic end of the tie line is at a lower composition than the nematic end of the tie line. For Onsager theory at zero composition the isotropic branch of the binodal intersects the c -axis at c$_{I}$ = 0 . 666 and the nematic branch intersects at c$_{N}$ = 0 . 849 in agreement with the monodisperse limit found in earlier work [52]. The binodals interpolate smoothly from x = 0 to x = 1 where the values of c corresponding to the I - N coexistence concentrations are c$_{I}$ = 0 . 5 and c$_{N}$ = 0 . 638. The nature of the tie lines is similar to FMT. The I - N spinodal lies between the two branches of the binodal and interpolates smoothly from zero composition where c = 8 /π 2 = 0 . 811 to x = 1 where c ∗ = 0 . 609. The nematic phase of a mixture of two components can be characterised by two partial nematic order parameters S$_{1}$ and S$_{2}$ defined by The total nematic order parameter is the weighted average S$_{i}$ = 4 π ∫ π 2 0 dθ sin θ Ψ$_{i}$( θ ) P$_{2}$ (cos θ ) . (50) S$_{tot}$ = (1 − x ) S$_{1}$ + xS$_{2}$. (51) 17 | scientific_articles |
6017 P [index top] Section 27.16 “Performance Schema Status Variables” Section 27.16 “Performance Schema Status Variables” Section 27.16 “Performance Schema Status Variables” Section 27.16 “Performance Schema Status Variables” Section 27.15 “Performance Schema System Variables” Section 27.16 “Performance Schema Status Variables” Section 27.16 “Performance Schema Status Variables” Section 27.16 “Performance Schema Status Variables” Section 27.16 “Performance Schema Status Variables” Section 27.16 “Performance Schema Status Variables” Section 27.15 “Performance Schema System Variables” Section 27.16 “Performance Schema Status Variables” Section 27.16 “Performance Schema Status Variables” Section 27.16 “Performance Schema Status Variables” Section 27.15 “Performance Schema System Variables” Section 27.7 “Performance Schema Status Monitoring” Section 27.16 “Performance Schema Status Variables” Section 27.7 “Performance Schema Status Monitoring” Section 27.16 “Performance Schema Status Variables” Performance_schema_mutex_instances_lost Performance_schema_mutex_classes_lost Performance_schema_metadata_lock_lost Performance_schema_memory_classes_lost Performance_schema_locker_lost Performance_schema_index_stat_lost Performance_schema_hosts_lost Performance_schema_file_instances_lost Performance_schema_file_handles_lost Performance_schema_file_classes_lost Performance_schema_digest_lost Performance_schema_cond_instances_lost Performance_schema_cond_classes_lost Performance_schema_accounts_lost | manuals |
Notes to Consolidated Financial Statements 2000 and 1999. Since the date of issuance approximately $21.5 million of the SellCo Notes have been redeemed with proceeds from the sale of stock and assets of SellCo subsidiaries and the pre- payment by EMCOR of the Supplemental SellCo Note. The SellCo Notes mature on December 15 2004 if not deemed canceled at an earlier date pursuant to the Indenture. In 1998 EMCOR issued notes in connection with the acquisition of two companies. A principal payment of $1.0 million was made in August 1999 in respect of one note issued in August 1998 and a principal payment of the balance of $1.15 million was made in respect of that note in August 2000. Interest on the note was payable together with payments of principal. The other note issued in the principal amount of $6.2 million in December 1998 was paid in full in January 1999. See Note K in the Notes to Consolidated Financial Statements. Other long-term debt consists primarily of loans for real estate office equipment automobiles and building improvements. As of December 31 2000 and 1999 respectively other long-term debt excluding current maturities totaling $1.1 million and $1.5 million was owed by certain of EMCOR’s subsidiaries. The aggregate amount of other long-term debt maturing during the next five years is approximately: $0.2 million in each of 2001 and 2002 $0.1 million in each of 2003 2004 and 2005 and $0.4 million thereafter. The income tax provision in the accompanying Consolidated Statements of Operations for the years ended December 31 2000 1999 and 1998 consisted of the following (in thousands): EMCOR adopted Fresh-Start Accounting in connection with EMCOR’s reorganization in December 1994. As a result the tax benefit of any net operating loss carryforwards or net deductible temporary differences which existed as of December 15 1994 will result in a charge to the tax provision (provision in lieu of income taxes) and to capital surplus. Amounts credited to capital surplus were $24.4 million $15.6 million and $8.2 million for the years ended December 31 2000 1999 and 1998 respectively. EMCOR files a consolidated federal income tax return including all of its U.S. subsidiaries. At December 31 2000 EMCOR had net operating loss carryforwards (“NOLs”) for U.S. income tax purposes of approximately $40.0 million which expire in the years 2009 through 2012. The NOLs are subject to review by the Internal Revenue Service. Future changes in ownership of EMCOR as defined by Section 382 of the Internal Revenue Code could limit the amount of NOLs available for use in any one year. In the United Kingdom EMCOR’s wholly owned subsidiary Drake & Scull has a trading loss carry-forward of approximately $6.0 million. Trading losses may be carried forward without a time limit against future income from the same trade. Note G – Income Taxes Notes Payable Capitalized Lease Obligations Other Long-Term Debt Factors accounting for the variation from U.S. statutory income tax rates relating to continuing operations for the years ended December 31 2000 1999 and 1998 were as follows (in thousands): EMCOR 2000 Annual Report 32 2000 1999 1998 Current: Federal $ 1 364 $ 872 $ 302 State and local 3 394 2 510 2 035 Foreign 1 180 1 730 2 161 5 938 5 112 4 498 Deferred: Foreign 1 138 1 100 – Provision in lieu of income taxes 24 422 15 645 8 151 $ 31 498 $ 21 857 $ 12 649 2000 1999 1998 Federal income taxes at the statutory rate $ 25 055 $ 17 387 $ 10 409 State and local income taxes net of federal tax benefits 3 894 2 990 1 058 Foreign income taxes 890 271 1 247 Non-deductible goodwill amortization 1 211 843 101 Other 448 366 (166) $ 31 498 $ 21 857 $ 12 649 | financial_reports |
8/15/19 1/30/20 AIM clearance if necessary; and once the aircraft reports reaching VFR-on-top reclears the aircraft to maintain VFR-on-top. 5 − 5 − 15. Minimum Fuel Advisory 5 − 5 − 14. Instrument Departures 5 − 5 − 16. RNAV and RNP Operations 5 − 5 − 7 Pilot/Controller Roles and Responsibilities 3. Before issuing clearance ascertain that the aircraft is not in or will not enter Class A airspace. 1. Prior to departure considers the type of terrain and other obstructions on or in the vicinity of the departure airport. 2. Determines if obstruction avoidance can be maintained visually or that the departure procedure should be followed. 3. Determines whether an obstacle departure procedure (ODP) and/or DP is available for obstruction avoidance. One option may be a Visual Climb Over Airport (VCOA). Pilots must advise ATC as early as possible of the intent to fly the VCOA prior to departure. 4. At airports where IAPs have not been published hence no published departure procedure determines what action will be necessary and takes such action that will assure a safe departure. 1. At locations with airport traffic control service when necessary specifies direction of takeoff turn or initial heading to be flown after takeoff consistent with published departure proce- dures (DP) or diverse vector areas (DVA) where applicable. 2. At locations without airport traffic control service but within Class E surface area when necessary to specify direction of takeoff turn or initial heading to be flown obtains pilot’s concur- rence that the procedure will allow the pilot to comply with local traffic patterns terrain and obstruction avoidance. 3. When the initial heading will take the aircraft off an assigned procedure (for example an RNAV SID with a published lateral path to a waypoint and crossing restrictions from the departure end of runway) the controller will assign an altitude to maintain with the initial heading. 2. Pilots are not authorized to fly a published RNAV or RNP procedure (instrument approach departure or arrival procedure) unless it is retrievable by the procedure name from the current aircraft navigation database and conforms to the charted procedure. The system must be able to retrieve the 1. If unable to comply with the requirements of an RNAV or RNP procedure pilots must advise air traffic control as soon as possible. For example “N1234 failure of GPS system unable RNAV request amended clearance.” 1. When an aircraft declares a state of minimum fuel relay this information to the facility to whom control jurisdiction is transferred. 2. Be alert for any occurrence which might delay the aircraft. 5. If the remaining usable fuel supply suggests the need for traffic priority to ensure a safe landing you should declare an emergency due to low fuel and report fuel remaining in minutes. Pilot/Controller Glossary Term − Fuel Remaining. 1. Advise ATC of your minimum fuel status when your fuel supply has reached a state where upon reaching destination you cannot accept any undue delay. 2. Be aware this is not an emergency situation but merely an advisory that indicates an emergency situation is possible should any undue delay occur. 3. On initial contact the term “minimum fuel” should be used after stating call sign. Salt Lake Approach United 621 “minimum fuel.” 4. Be aware a minimum fuel advisory does not imply a need for traffic priority. EXAMPLE − a. Pilot. a. Pilot. b. Controller. REFERENCE − b. Controller. a. Pilot. 4. Includes established departure procedures as part of the ATC clearance when pilot compliance is necessary to ensure separation. | laws_and_regulations |
UCI CYCLING REGULATIONS Only a team whose application for a UCI ProTeam has been rejected can file via the National Federation a demand for registration as UCI continental team outside this term. The National Federation must inform UCI that it received such request at the latest 10 days after the team has received the decision that registration as UCI ProTeam is refused. In that event the administration of the UCI will set the term to establish a registration file. (text modified on 1.07.10; 1.05.17; 1.07.18). The application must include the following information: Any changes to the information above must be immediately notified to the UCI by the National Federation and only by it. (text modified on 1.07.18). (text modified on 1.07.09; 1.01.17; 1.07.18). The letter must be filled in and signed via UCI DataRide according to the procedure detailed in the UCI continental teams and UCI women’s continental teams’ registration manual. The president of the National Federation shall also fill in a checklist as requested in the UCI continental teams and UCI women’s continental teams’ registration manual. (text modified on 1.02.10; 1.07.12 ; 3.06.16; 1.07.18). ROAD RACES E170421 288 2.17.034 The application for registration must be made on the UCI forms provided for this purpose. Other applications shall be rejected. 1. exact name of the team; 2. the address (including telephone number and email) to which all communications to the team can be sent; 3. the names and addresses of the team representative and the sports director; 4. surnames forenames addresses nationalities and dates of birth of the riders; 5. the allocation of tasks specified by article 1.1.082. 2.17.035 The application for registration must be submitted according to the procedure set out in the UCI continental teams and UCI women’s continental teams’ registration manual. 2.17.036 These documents are sent to the UCI for information only. The National Federation and the team are solely liable for their compliance with UCI regulations and any applicable legislation. 2.17.037 The registration application documents must also include a letter from the president of the National Federation in which he confirms to the UCI that his federation has carried out all controls required for to ensure the good reputation of team members and management respect for the UCI regulations respect for the regulations of the National Federation respect for the laws in force in the relevant country and of the fact that the team members are all covered by insurance which meets the requirements of article 2.17.031. | manuals |
12 FI G. 14: The dependence of the center-of-gravity frequencies fo r the 6S 1 / 2 → 6P 3 / 2 → 7D 5 / 2 transition on the power (upper lef t) the magnetic field (upper right) and the Cs vapor pres- su re (bottom). The straight line in the power dependence pl ot is a linear weighted fit to the data. The vertical axis has be en offset and centered so that the nominal operating point is at zero. The power is plotted as a function of the fraction of the maximum power. The magnetic field is plotted as a fu nction of the residual magnetic field. FIG. 13: The experimental spectrum (upper trace) fit to the 6S 1 / 2 → 6P 3 / 2 → 7D 5 / 2 transition (middle trace) and of the calculated contribution from the 6S 1 / 2 → 6P 3 / 2 → 7D 3 / 2 transition (lower trace). Note that the vertical scales are different for the two figures. -0.1 0.0 0.1 1.0 0.5 0.0 Normalized Power Center-of-Gravity Frequency Shift [MHz] -0.2 0.0 0.2 2 1 0 Normalized Magnetic Field Center-of-Gravity Frequency Shift [MHz] -0.1 0.0 0.1 8 6 4 2 0 Pressure [mPa] Center-of-Gravity Frequency Shift [MHz] 0.7740 0.7738 0.7736 f$_{rep}$ - 1000 MHz [MHz] 0.7728 0.7726 0.7724 f$_{rep}$ - 1000 MHz [MHz] Experiment 7 D$_{5/2}$ Fit 7 D$_{3/2}$ Calculation Experiment 7 D$_{5/2}$ Fit 7 D$_{3/2}$ Calculation 7 2 P$^{✑}$ 6 2 S 1/2 Fluorescence from 6 2 S 1/2 ✒ 6 2 P 3/2 ✓ 7 2 D 3/2 5/2 Excitation 7 2 P$^{✔}$ 6 2 S 1/2 Fluorescence from 6 2 S 1/2 ✕ 6 2 P 3/2 ✖ 7 2 D 3/2 5/2 Excitation 0 1 2 0 2 4 1 3 5 Group 1 Group 2 Group 3 Group 4 Group 5 35 kHz in the optical frequency. There is no evidence for a dependence of the extracted hyperfine A constant and w e find a magnetic-field uncertainty of 6 kHz for it. For th e B constant we find an uncertainty of 125 kHz. We see no clear evidence for any temperature depen- dent effects. Using the larger of standard deviation or the uncertainty in the mean we find uncertainties of 7 kHz 1 kHz and 38 kHz for the temperature-dependent uncer- tainties of the center-of-gravity frequency the hyperfine A constant and the hyperfine B constant respectively Applying these uncertainties we find We have used the technique of velocity-selective two- photon excitation to measure the center-of-gravity fre- quencies and the hyperfine coupling constants for the 8S$_{1}$$_{/}$$_{2}$ 9S$_{1}$$_{/}$$_{2}$ 7D$_{3}$$_{/}$$_{2}$ and 7D$_{5}$$_{/}$$_{2}$ states of Cs. The results for all of the transitions are summarized and compared to other published experimental values in Table II. This technique has potential metrological applications for sec- ondary frequency standards at optical wavelengths. At a more fundamental level the hyperfine coupling measure- ments are valuable in improving atomic structure calcu- lations. The measurement accuracy of multiple transi- tions at significantly different wavelengths rivals that of transition. For the first stage the intensity over the 10 nm bandwidth was varied from ≈ 22 W/cm 2 to ≈ 5 W/cm $^{2}$. Data were taken at cell temperatures corresponding to saturated vapor pressures of 0.15 1.05 3.9 and 8.5 mPa. The dependence of the center-of-gravity on the varied parameters is shown in Fig. 14 and are summarized in Table I. As with the previous transitions there was no signifi- cant shift arising from the light power. A linear fit gave a slope of − 23(62) kHz /P where P is the normalized operating power. This gives us an uncertainty of 85 kHz in the center-of-gravity frequency. We found uncertain- ties in the hyperfine A and B constants of 11 kHz and 458 kHz respectively. Unlike the other transitions studied here we did ob- serve a dependence of the center-of-gravity on the mag- netic field (Fig. 14). There was clear evidence of broad- ening in the peaks at the largest magnetic fields. We attribute the shift to a break down of the line-shape model as the line broadens coupled with the overlap of the peaks. In this case we base our estimate of the uncer- tainty on the difference of the point taken at the zeroed field with the residual field and find an uncertainty of V. CONCLUSIONS ν$_{6S}$$_{1}$$_{/}$$_{2}$$_{:7D}$$_{5}$$_{/}$$_{2}$ = 781 522 153 . 68(16) MHz A$_{7D}$$_{5}$$_{/}$$_{2}$ = − 1 . 717(15) MHz B$_{7D}$$_{5}$$_{/}$$_{2}$ = − 0 . 18(52) MHz . | scientific_articles |
timber licenses shall provide for the selection of the timber before cutting when such selection is feasible. [1148-13.] SECTION 1029 . Taking of Forest Products by Unlicensed Person to Prejudice of Licensee . — Where a license is issued for the taking of forest products and a person other than the licensee unlawfully enters or operates without license in the territory covered thereby and cuts gathers or removes any forest products contrary to the terms of said license or attempts to remove any products so cut or gathered the same may be seized and delivered to the proper licensee upon the payment of the regular charges th ereon free from any claim on the part of the offending person. Should the licensee upon receiving notice of the seizure refuse to accept such products and pay said charges the property shall be deemed to be forfeited and upon delivery to the Bureau of Internal Revenue shall be disposed of under the Internal Revenue Law as such. [1148-26.] SECTION 1030 . Leasing of Forest Land for Special Purposes . — The Director of Forestry with the approval of the Secretary of the Interior may upon proper terms which he may deem reasonable lease as herein provided forest land as sites for sawmills and timber depots and for the construction of hotels sanatoria residences or for camps fish ponds pastures or other lawful uses for a period not to exceed twenty years and not more than ten hectares in area except so far as fish ponds are concerned in which case the maximum area shall be two hundred hectares and pastures the maximum of which shall be one thousand hectares to any person or to any association of persons. caHCSD The Secretary of the Interior may grant free rights of way through any public land to enable the holder of such special permit or license to get access to the land in question. [2608.] SECTION 1031 . Establishment of Communal Forests . — The Director of Forestry with the approval of the Department head may set aside as communal forest for the particular use of the inhabitants of any municipality township or settlement one or more tra cts of public-forest land more suitable for forest uses than for agriculture. Such assignments shall be preferably made from land in the Copyright 2012 CD Technologies Asia Inc. and Accesslaw Inc. Philippine Law Encyclopedia 2011 308 ARTICLE III Communal Forests | laws_and_regulations |
The triggered data includes events containing cosmic ray interactions beam halo and detector noise. These contributions are mostly asymmetric and lead to a large imbalance in the momentum in the plane transverse to beam direction E /$_{T}$ . In contrast for QCD jet production E /$_{T}$ is ideally zero apart from a small neutrino contribution. In QCD events E /$_{T}$ arises mainly from fluctuations in calorimeter response and is much smaller than the total energy observed in the detector. Most of these background events are removed by requiring the ratio of E /$_{T}$ to the transverse momentum of the leading jet to be small. Remaining backgrounds are removed by requiring that the shape of energy deposition in the calorimeters be consistent with the expected shape from a hadronic jet. The shape of energy deposition for a jet is very different from the energy deposited by a cosmic muon or a beam halo particle as a jet consists of many particles. These shape requirements also remove photons and electrons. These requirements are highly efficient for the signal and the remaining background is estimated to be < 0 . 1%. The measured p$_{T}$ of each jet is corrected for calorimeter non-linearity and energy lost in uninstrumented regions. These average jet-by-jet energy corrections do not correct the smearing (bin-to-bin migration) of jets due to the finite energy resolution. This smearing is determined using an iterative procedure. It is assumed that the particle level physics (true) spectrum is described by the function where y$_{min}$ is the rapidity lower bin edge. This functional form is a good representation of the NLO pQCD prediction and fits the measured raw inclusive jet spectrum well. This true spectrum is smeared using the jet energy resolution function which is determined us- ing p ¯ p collider dijet data and simulated dijet events. The resulting smeared spectrum is compared with data using a χ 2 test. The process is iterated to determine the best param- eters ( N$_{0}$ α β γ ) of the true function F ( p$_{T}$ y ). This true spectrum is used to correct the migrations between bins in p$_{T}$ in the observed data. In the central region the migration correction is a multiplicative factor that is 0 . 8 − 0 . 9 at low p$_{T}$ and 0.7 at higher p$_{T}$ with a strong dependence on y . The true spectrum F ( p$_{T}$ y ) is measured separately for each ra- pidity bin. The jet rapidity is measured very precisely and thus migration between rapidity bins is small. The y migration corrections are less than 2% in most bins and 10% in the highest p$_{T}$ bin where spectrum is the steepest. The rapidity unsmearing is applied after the F ( p$_{T}$ y ) = N$_{0}$ ( p$_{T}$ 100 GeV / c ) α ( 1 − 2 p$_{T}$ cosh( y$_{min}$ ) √$_{s}$ ) β exp( − γp$_{T}$ ) (6) 18 | scientific_articles |
Exhibit 11.1 Code of Ethics of Chunghwa Telecom Co. Ltd. All articles adopted by the 2nd special meeting of the Company’s 3rd Board of Directors on April 28 2004. The amendment adopted by the 12th meeting of the Company’s 4th Board of Directors on March 28 2006. All 19 articles amended by the 8th meeting of the Company’s 6th Board of Directors on April 26 2011. Chunghwa Telecom Co. Ltd. (hereinafter referred to as the “Company”) and its directors supervisors managers and employees shall conduct business throughout the world in accordance with the highest ethical standards. This Code of Ethics is hereby stipulated in order to establish an obedience and maintenance standard. The Code of Ethics embodies rules regarding individual and group responsibilities as well as responsibilities to the Company the public and other stakeholders. This Code of Ethics applies to the Company’s directors supervisors managers and employees. The purpose of this Code of Ethics is to prevent from wrongdoing and to cause their conducts to be in compliance with the following requirements: Article 1 Purpose and applicable scope Article 2 Honesty and ethics Articles 3 Avoiding conflict of interest PART III The Company’s directors supervisors managers and employees shall act according to the ethics and perform their duties with honesty. Honest conduct mentioned above refers to a conduct that is free from intent of fraud or fact of deception. Conduct in compliance with ethics refers to a conduct that meets the professional standards including the handling of conflict of interests in connection with the personal matters or their duties. “Conflict of interests” stipulated in the previous Article refers to a situation where directors supervisors managers and employees face a choice between their personal interests (financial interests or otherwise) and the interests of the Company. Conflict of interests will always cause public concerns toward the Company’s image. Services to the Company shall not be provided basing on personal interests and directors supervisors managers and employees are required to act in the Company’s best interest to avoid from any conflict of interests. Where the Company’s directors supervisors managers and employees are in a position whose objectivity may be questioned because of personal interests or interests of their spouse children or relatives within the second degree (including working for companies whose interests are in direct competition with the Company) shall notify their immediate supervisor or the Company’s Human Resources Department. Where any individual is aware that a material transaction or relationship might gives rise to a personal conflict of interests he/she shall discuss about the matter with his/her immediate supervisor or the Company’s Human Resources Department immediately. 14. Full understanding and compliance with this Code of Ethics. 13. Reporting and handling discovered violations against the Code of Ethics; and 12. Implementing environmental protection and establish a healthy and safeworking environment; 11. Preventing from corruption and bribery; 10. Preventing from insider trading; 9. Complying with laws rules and regulations; 8. Protecting the Company’s assets and utilizing them in an efficient and legitimate manner; 7. Treating fairly with the Company’s customers suppliers and competitors; 6. Disclosing the Company’s information in a full fair accurate timely and understandable manner; 5. Keeping trade secrets; 4. Caring for employees; 3. No appropriation for personal gains; 2. Avoiding conflict of interest; 1. Honesty and ethics; | financial_reports |
Burkina Faso HIGHLIGHTS Bouroum Project During December 2001 AXMIN secured a 90 day Option to acquire an interest in the Bouroum exploration permit in Burkina Faso from Channel Resources Ltd. AXMIN had previ- ously carried out check drilling at Bouroum in late 2000. The Bouroum project is located 200 km by road northeast of Ouagadougou and 35 km to High River Gold’s Taparko project which is now at the pre-feasibility study stage. grade core within the F12 deposit which contains an estimated 86 000 ounces of gold with a mean grade of 8.9 g/t Au. SRK report that the classification into Indicated and Inferred categories is in accordance with National Instrument 43-101. AXMIN is planning to commence a 2 000 metre core and RC drilling program in mid-2002 at Bouroum. The objective of the program is to increase the level of confidence in the resources and better delineate the high grade zones. The pre- feasibility study will commence and will include metallurgical and geotechnical studies. AXMIN exercised the option over the 275 km 2 Bouroum permit in March 2002 following a review of historical exploration data on the property the completion of an independent resource estimate on the F12 Welcome Stranger and Bissinga deposits by Steffen Robertson & Kirsten (UK) Limited (“SRK”) and a scoping study to investigate project economics by Metallurgical Design & Management (Pty) Ltd (“MDM”). SRK’s independent estimate of the mineral resources at Bouroum is 2.3 million tonnes at 3.1 g/t Au (230 000 ounces) for the F12- Welcome Stranger deposit which has been classified as an Indicated Resource. SRK has delineated a further 2.6 million tonnes at 2.8 g/t Au (235 000 ounces) within the F12-Welcome Stranger deposit and the nearby Bissinga deposit and classified these as Inferred Resources. In addition SRK modelled a high The F12 and Welcome Stranger deposits are interpreted to lie at a site of tensional opening within the NNW trending “Bouroum Deformation Corridor” which cuts across the full length of the Bouroum Permit. AXMIN believes there is excellent potential for dis- covery of additional resources in F12-Welcome Stranger analogues elsewhere within this major struc- ture with similar size potential. Regional exploration will also commence in mid-2002 on seven priority targets within a 15 km radius of the F12-Welcome Stranger deposit. Typically these targets are sites of artisanal gold mining activity and gold in soil anomalies along gold bearing structures within the Bouroum Deformation Corridor. 7 • Finalized Heads of Agreement with Channel Resources Ltd over the Bouroum Permit in Burkina Faso • Exploration and pre-feasi- bility drilling scheduled for mid-2002 | financial_reports |
Template of June 2018 Updated November 2018 Contract number: EEAS-618-DELBRBB-SER-FWC-2019 5. If it is impossible to restore the communication within two working days one party must notify the other that alternative means of communication specified in Article II.5.1 will be used until the supplier portal or the machine-to-machine connection is restored. 6. When a change in the interface control document requires adaptations the contractor (or leader in the case of a joint tender) has up to six months from receipt of the notification to implement this change. This period can be shortened by mutual agreement of the parties. This period does not apply to urgent measures required by the security policy of the contracting authority to ensure integrity confidentiality and non-repudiation of information and the availability of e-PRIOR which must be applied immediately. 1. The parties agree that any e-document including related attachments exchanged via e- PRIOR : (a) is considered as equivalent to a paper document; (b) is deemed to be the original of the document; (c) is legally binding on the parties once an e-PRIOR authorised person has performed the ‘sign’ action in e-PRIOR and has full legal effect; and (d) constitutes evidence of the information contained in it and is admissible as evidence in judicial proceedings. 2. The parties expressly waive any rights to contest the validity of such a document solely on the grounds that communications between the parties occurred through e- PRIOR or that the document has been signed through e-PRIOR . If a direct connection is established between the parties’ back offices to allow electronic transfer of documents the parties agree that an e-document sent as mentioned in the interface control document qualifies as an EDI message . 3. If the e-document is dispatched through the supplier portal it is deemed to have been legally issued or sent when the contractor (or leader in the case of a joint tender) is able to successfully submit the e-document without any error messages. The generated PDF and XML document for the e-document are considered as a proof of receipt by the contracting authority. 4. In the event that an e-document is dispatched using a direct connection established between the parties’ back offices the e-document is deemed to have been legally issued or sent when its status is ‘received’ as defined in the interface control document . 5. When using the supplier portal the contractor (or leader in the case of a joint tender) can download the PDF or XML message for each e-document for one year after submission. After this period copies of the e-documents are no longer available for automatic download from the supplier portal . The contractor submits a request for each person who needs to be assigned the role of ‘user’ in e-PRIOR . These persons are identified by means of the European Communication Authentication Service (ECAS) and authorised to access and perform actions in e-PRIOR within the permissions of the user roles that the contracting authority has assigned to them. II.5.5. Authorised persons in e-PRIOR 16 II.5.4. Validity and date of e-documents | government_tenders |
FIG. 2: 16 | scientific_articles |
Certificates of deposit reflect contractual maturities only. Money market accounts are rate sensitive and accordingly a higher percentage of the accounts have been included as repricing immediately in the first period. Savings and NOW accounts are not as rate sensitive as money market accounts and for that reason a significant percentage of the accounts are reflected in the 1-to-5 year category. We have been successful in meeting the interest sensitivity objectives set forth in our policy. This has been accomplished primarily by managing the assets and liabilities while maintaining our traditional high credit standards. INTEREST-EARNING ASSETS AND INTEREST-BEARING LIABILITIES REPRICING SCHEDULE ("GAP" TABLE) 60 As of December 31 2012 3 months or less 3 to 12 months 1 to 5 years Over 5 years Total (Dollars in thousands) Interest-earning assets: Investment securities 14 009 $ 17 031 $ 105 898 $ 81 600 $ 218 538 $ Loans 64 817 136 433 107 800 14 027 323 077 Total interest-earning assets 78 826 $ 153 464 $ 213 698 $ 95 627 $ 541 615 $ Interest-bearing liabilities: Certificates of deposit 39 285 $ 76 478 $ 55 063 $ 109 $ 170 935 $ Money market and NOW accounts - 15 006 175 303 - 190 309 Savings accounts - - 45 365 - 45 365 Borrowed money 24 250 27 10 145 25 545 59 967 Total interest-bearing liabilities 63 535 $ 91 511 $ 285 876 $ 25 654 $ 466 576 $ Interest sensitivity gap per period 15 291 $ 61 953 $ (72 178) $ 69 973 $ 75 039 $ Cumulative interest sensitivity gap 15 291 77 244 5 066 75 039 Cumulative gap as a percent of total interest-earning assets 2.82% 14.26% 0.94% 13.85% Cumulative interest sensitive assets as a percent of cumulative interest sensitive liabilities 124.07% 149.82% 101.15% 116.08% | financial_reports |
3 confining stress or equivalently in the hard-sphere limit σ/Y → 0 $^{+}$) covering a range of φ$_{j}$ from φ$_{rlp}$ = 0 . 55 to crystallization at φ$_{fcc}$ = 0 . 74. The mechanical coordination number averaged over all the particles in a packing Z$_{j}$ characterizes different states of granular matter [2 7 15]. Therefore our study begins by plotting Z$_{j}$ versus φ$_{j}$ for all generated packings. Figure 1 suggests the existence of a transition occurring at RCP evidenced by the abrupt plateau in Z$_{j}$ . This transition could be thought of as an analogue to the classical hard sphere liquid-solid phase transition in thermal equilibrium [16 17]. Such an analogy becomes apparent if one identifies Z$_{j}$ of the jammed packing with the kinematic pressure of the equilibrium hard sphere system [6] and it is in agreement with a recent conjecture regarding the definition of RCP [8]. Figure 1 identifies two branches and a coexistence region: (i) An ordered branch of crystallized states with φ$_{j}$ ranging from 0.68 to a FCC lattice at 0.74. (ii) A disordered branch within 0 . 55 ∼ 0 . 64 which can be fitted with the statistical theory of [7]: φ$_{j}$ = Z$_{j}$/ ( Z$_{j}$ + $_{2}$√$_{3) as shown in the figure.}$ (iii) A coexistence region between 0.64 to 0.68 displaying a plateau at the isostatic coordination number Z$_{iso}$ = 6 [4 14 18]. The intersection between the disordered branch and the coexistence line identifies the “freezing point” of the transition providing a definition of RCP. Using the theoretical results of [7] freezing occurs at Z$_{iso}$ = 6 and φ$_{rcp}$ = 6 / $_{(6 + 2}$√$_{3)}$ ≈ 0 . 634. The corresponding “melting point” appears at the other end of the coexistence at φ$_{melt}$ = 0 . 68 signaling the beginning of the ordered branch. Finite size analysis is shown in the Appendix-Fig. 5A: the results for 500 and 10 000 spheres are consistent with each other. Other geometric aspects of the transition are discussed in Appendix-Section II. To reveal the nature of the newly found phases we start with a descriptive viewpoint and then turn to a thermodynamic analysis to model the transition. In order to investigate if the concept of phase transition applies to the trend observed in Z$_{j}$ one commonly looks at the global ( Q$_{l}$ W$_{l}$ ) and local ( q$_{6}$ ) orientational order parameters for a signature of varying amounts of crystallization present in the packings as defined elsewhere [19] (see Appendix- Section III A and Fig. 2 for definitions). The salient feature of Q$_{l}$ is that its zero value means disorder and non-zero value means crystallization. Therefore the presence in Fig. 2A of an increase in Q$_{l}$ from zero at φ$_{rcp}$ defines the beginning of the coexistence region. Typically a first-order transition is marked by a nonzero third-order invariant W$_{l}$ [19 20] which we find appears at the melting point φ$_{melt}$ signaling the onset of the ordered branch | scientific_articles |
4 Alcoa is… Under a long-term agree- ment Alcoa Howmet Castings supplies Rolls- Royce with precision castings components for nine of the company’s civil and defense aerospace engines including the Rolls-Royce Trent 500. Alcoa Fastening Systems delivers new fasteners and fluid-fitting designs for the high-performance F-35 Joint Strike Fighter (JSF) that are stronger lighter and quicker to install join- ing other Alcoa businesses that supply forgings castings plate and airfoils to the JSF program. Airbus officially introduced its A380 the world’s largest commercial air- craft in January 2005. Innovative Alcoa products developed to meet unique technical challenges are used throughout the airliner. The ARJ21 China’s advanced regional jet is a robust low-cost aircraft designed for decades of service. New Alcoa alloys play an important part in meeting fuel and weight-saving objectives. Pratt & Whitney awarded Alcoa Fastening Systems a life-of-program contract to supply its Weld-Stud Fastening System for the F119 engine nozzle assembly. | financial_reports |
2. Baryogenesis All the relevant physical processes take place essentially in the range from a few MeV ∼ 0 . 1 sec down to 60 − 70 KeV ∼ 10 3 sec. During this period only photons e ± pairs and the three neutrino flavors contribute significantly to the energy density. Any additional energy density may be parameterized in terms of the effective number of light neutrino species N$_{ν}$ so that BBN constraints the number of light neutrino species by N$_{ν}$ ≤ 4 [28 30]. The four LEP experiments combined give the best fit as N$_{ν}$ = 2 . 994 ± 0 . 12 [319]. The likelihood analysis which includes all the three elements (D $^{4}$He and $^{7}$Li ) yields the baryon to photon ratio [320] Despite the uncertainties there appears to be a general concordance between theoretical BBN predictions and observations which is now being bolstered by the CMB data Ω$_{b}$ h 2 = 0 . 02229 ± 0 . 00073 [258]. The baryon asymmetry of the universe (BAU) parameterized as η$_{B}$ ≡ ( n$_{B}$ − n ¯ $_{B}$) /s ≈ η is determined to be 0 . 9 × 10 − 10 by the recent analysis of WMAP data [13]. As pointed out by Sakharov [321] baryogenesis requires three ingredients: (1) baryon number non- conservation (2) C and CP violation and (3) out-of-equilibrium condition. All these three conditions are believed to be met in the very early universe. Baryogenesis during the electroweak phase transition [322] has been studied widely see [323]. Another mechanism known as Affleck-Dine baryogenesis which happens due to the non-trivial dy- namics of a light scalar condensate is a natural outcome of inflation [324–326]. It is also possible to convert leptonic asymmetry into baryonic asymmetry B = a ( B − L ) [327–330] for a review see [331] where a = 28 / 79 in the case of SM and a = 8 / 23 for the MSSM [332]. A lepton asymmetry can be generated from the out-of-equilibrium decay of the right handed (RH) neutrinos into Higgs bosons and light leptons provided CP − violating phases exist in the neutrino Yukawa couplings. The created lepton asymmetry will be converted into a baryonic asymmetry via sphaleron processes. This scenario works most comfortably 39 $^{g}$∗ = 10 . 75 + 7 4 ( N$_{ν}$ − 3) . (78) 4 . 7 × $_{10}$− 10 < η < 6 . 2 × $_{10}$− $^{10}$ 0 . 017 < Ω$_{b}$ h 2 < 0 . 023 . (79) | scientific_articles |
94 US 9 221 742 B2 93 Notably the compound having the anion of formula (8) does not have fluorine at the a-position relative to the sulfa group but two trifluoromethyl groups at the ~-position. For this reason it has a sufficient acidity to sever the acid labile groups in the resist polymer. Thus the compound is an effec› tive PAG. The organic solvent (E) used herein may be any organic solvent in which the polymer (base resin) PAG quencher and other components are soluble. Examples of the organic solvent include ketones such as cyclohexanone and methyl 2-n-amyl ketone; alcohols such as 3-methoxybutanol 3-me› thyl-3-methoxybutanol l-methoxy-2-propanol and l-ethoxy-2-propanol; ethers such as propylene glycol monomethyl ether ethylene glycol monomethyl ether pro› pylene glycol monoethyl ether ethylene glycol monoethyl ether propylene glycol dimethyl ether and diethylene glycol dimethyl ether; esters such as propylene glycol monomethyl ether acetate (PGMEA) propylene glycol monoethyl ether acetate ethyl lactate ethyl pyruvate butyl acetate methyl 3-methoxypropionate ethyl 3-ethoxypropionate tert-butyl acetate tert-butyl propionate and propylene glycol mono› tert-butyl ether acetate; and lactones such as y-butyrolactone and mixtures thereof as described in JP-A 2008-111103 paragraphs [0144] to [0145]. Where an acid labile group of acetal type is used a high-boiling alcohol solvent may be added for accelerating deprotection reaction of acetal for example diethylene glycol propylene glycol glycerol 1 4- butanediol or 1 3-butanediol. Of the above organic solvents (E) Organic Solvent Also a PAG having a nitrogen-containing substituent may be used in combination. This compound functions as quencher in the unexposed region and as so-called photo› degradable base which loses quencher ability through neu› tralization with the acid generated by itself in the exposed region. The use of photo-degradable base is effective for enhancing the contrast between exposed and unexposed regions. With respect to the photo-degradable base reference may be made to JP-A 2009-109595 and JP-A 2012-046501 for example. The quenchers may be used alone or in admixture of two or more. The quencher is preferably used in an amount of0.001 to 12 parts more preferably 0.01 to 8 parts by weight per 100 parts by weight of the base resin. The inclusion of quencher facilitates adjustment of resist sensitivity and holds down the rate of acid diffusion within the resist film resulting in better resolution. In addition it suppresses changes in sensitivity following exposure and reduces substrate and environment dependence as well as improving the exposure latitude and the pattern profile. The inclusion of quencher is also effective for improving adhesion to the substrate. To the resist composition a nitrogen-containing com› pound may be added as the quencher. The inclusion of the nitrogen-containing compound holds down the diffusion rate at which the acid generated by PAG diffuses within the resist film. Suitable nitrogen-containing compounds include pri› mary secondary and tertiary amine compounds specifically amine compounds having a hydroxyl group ether bond ester bond lactone ring cyano group or sulfonate bond as described in JP-A 2008-111103 paragraphs [0146] to [0164] (U.S. Pat. No. 7 537 880). Also useful are compounds whose primary or secondary amine is protected in carbamate form as described in JP 3790649. (D) Nitrogen-Containing Compound The amount of the PAG (C) added is preferably O to 40 parts specifically 0.1 to 40 parts ifused more preferably 0.1 to 20 parts by weight per 100 parts by weight of the base resin. Too large an amount of the PAG may give rise to problems such as degraded resolution and foreign particles during development and resist film stripping. Of the foregoing PAG’s those compounds having the structure of formula (5’) or formula (8) are preferred because of suppressed acid diffusion and high solubility in the resist solvent. | patents |
Section 1.3 “What Is New in MySQL 8.0” Section 13.7.1.4 “DROP ROLE Statement” Section 13.7.1.6 “GRANT Statement” Section 17.3.3.1 “Privileges For The Replication PRIVILEGE_CHECKS_USER Account” Section 6.2.2 “Privileges Provided by MySQL” Section 6.2.10 “Using Roles” [index top] Section 13.1.5 “ALTER INSTANCE Statement” Section 13.7.1.6 “GRANT Statement” Section 15.13 “InnoDB Data-at-Rest Encryption” Section 6.4.4.18 “Keyring System Variables” Section 6.4.4.13 “Migrating Keys Between Keyring Keystores” Section 6.2.2 “Privileges Provided by MySQL” Section 13.1.3 “ALTER EVENT Statement” Section 13.1.13 “CREATE EVENT Statement” Section 13.1.25 “DROP EVENT Statement” Section 25.4.1 “Event Scheduler Overview” Section 25.4.3 “Event Syntax” Section 13.7.1.6 “GRANT Statement” Section 4.5.4 “mysqldump — A Database Backup Program” Section 4.5.6 “mysqlpump — A Database Backup Program” Section 6.2.2 “Privileges Provided by MySQL” Section 13.7.7.7 “SHOW CREATE EVENT Statement” Section 13.7.7.18 “SHOW EVENTS Statement” Section 25.4.6 “The Event Scheduler and MySQL Privileges” Section 13.1.17 “CREATE PROCEDURE and CREATE FUNCTION Statements” Section 13.1.29 “DROP PROCEDURE and DROP FUNCTION Statements” Section 6.4.4.14 “General-Purpose Keyring Key-Management Functions” Section 13.7.1.6 “GRANT Statement” Section 5.6.7.9 “Monitoring Cloning Operations” Section 28.1 “Prerequisites for Using the sys Schema” Section 6.2.2 “Privileges Provided by MySQL” Section 5.1.8 “Server System Variables” Section 13.7.7.9 “SHOW CREATE PROCEDURE Statement” Section 13.7.7.28 “SHOW PROCEDURE STATUS Statement” Section 25.6 “Stored Object Access Control” Section 25.2.2 “Stored Routines and MySQL Privileges” Section 26.3.30 “The INFORMATION_SCHEMA ROUTINES Table” Section 6.4.7.3 “Using MySQL Enterprise Firewall” [index top] F EXECUTE EVENT ENCRYPTION_KEY_ADMIN E DROP ROLE 5868 | manuals |
MySQL Source-Configuration Options Whether to enable the AddressSanitizer for compilers that support it. The default is off. Whether to enable the AddressSanitizer -fsanitize-address-use-after-scope Clang flag for use-after-scope detection. The default is off. To use this option -DWITH_ASAN must also be enabled. This option is enabled automatically if any corresponding server authentication plugins are built. Its value thus depends on other CMake options and it should not be set explicitly. This option was added in MySQL 8.0.26. Whether to report an error if the LDAP authentication plugins cannot be built: Whether to build the PAM authentication plugin for source trees that include this plugin. (See Section 6.4.1.5 “PAM Pluggable Authentication” .) If this option is specified and the plugin cannot be compiled the build fails. The location of the Amazon Web Services software development kit. • -DWITH_AWS_SDK= path_name • -DWITH_AUTHENTICATION_PAM= bool •If this option is enabled a failure to find the required header file andlibraries causes CMake to produce an error preventing the server from being built. •If this option is disabled (the default) the LDAP plugins are built if the required header files and libraries are found. If they are not CMake displays a note about it. • -DWITH_AUTHENTICATION_LDAP= bool • -DWITH_AUTHENTICATION_CLIENT_PLUGINS= bool • -DWITH_ASAN_SCOPE= bool • -DWITH_ASAN= bool already unpacked archive is saved. When WITH_ANT is not set or is set with the special value system the build assumes a binary ant exists in $PATH . 235 | manuals |
The Error Log user_defined_field : sequence of characters in [a-zA-Z0-9_] class comparator : {== | != | <> | >= | => | <= | =< | < | >} value : { string_literal | integer_literal | float_literal | error_symbol | priority } count : integer_literal window_size : integer_literal string_literal : sequence of characters quoted as ’...’ or "..." integer_literal : sequence of characters in [0-9] class float_literal : integer_literal [. integer_literal ] error_symbol : valid MySQL error symbol such as ER_ACCESS_DENIED_ERROR or ER_STARTUP priority : { ERROR | WARNING | INFORMATION } Simple conditions compare a field to a value or test field existence. To construct more complex conditions use the AND and OR operators. Both operators have the same precedence and evaluate left to right. To escape a character within a string precede it by a backslash ( \ ). A backslash is required to include backslash itself or the string-quoting character optional for other characters. For convenience log_filter_dragnet supports symbolic names for comparisons to certain fields. For readability and portability symbolic values are preferable (where applicable) to numeric values. Error symbols are recognized only in comparisons with the err_code field and user-defined fields. To find the error symbol corresponding to a given error code number use one of these methods: •Check the list of server errors at Server Error Message Reference. •Use the perror command. Given an error number argument perror displays information about the error including its symbol. •Error codes can be specified in numeric form or as the corresponding error symbol. For example ER_STARTUP is the symbolic name for error 1408 so these comparisons are equivalent: •Event priority values 1 2 and 3 can be specified as ERROR WARNING and INFORMATION . Priority symbols are recognized only in comparisons with the prio field. These comparisons are equivalent: IF prio == INFORMATION THEN ... IF prio == 3 THEN ... IF err_code == ER_STARTUP THEN ... IF err_code == 1408 THEN ... 1037 | manuals |
that the Company can secure reliable and cost effective inventory sourcing to support and better position itself for growth the Company is continuously evaluating additional internal manufacturing expansion as well as additional outside sources of products. The Company believes its financial position will provide sufficient funds should an appropriate investment opportunity arise and thereby assist the Company in improving customer satisfaction and in maintaining or increasing market share. Based upon plans for new product intro- ductions product mixes capacity restraints on certain product lines and equipment upgrades the Company anticipates that year 2005 capital expenditures for the manufacturing facilities will be $12-16 million. Inflation did not have a material effect on net sales or net income in fiscal years 2002 through 2004. A significant increase in inflation could affect future performance. In November 2004 the Emerging Issues Task Force (EITF) reached a consensus on EITF Issue No. 03-13 Applying the Conditions in Paragraph 42 of FASB Statement No. 144 “Accounting for the Impairment or Disposal of Long-Lived Assets ” in Determining Whether to Report Discontinued Operations . The consensus provides guid- ance in determining: (a) which cash flows should be taken into consideration when assessing whether the cash flows of the disposal component have been or will be eliminated from the ongoing operations of the entity The Company does not have any transactions arrange- ments and other relationships with unconsolidated entities that will affect our liquidity or capital resources. We have no special purpose entities that provided off- balance sheet financing liquidity or market or credit risk support nor do we engage in leasing hedging (except for the interest rate swap agreement) or research and development services that could expose us to liability that is not reflected on the face of the financial statements. The following table represents the Company’s contrac- tual obligations as of December 31 2004: (b) the types of involvement ongoing between the disposal component and the entity disposing of the component that constitute continuing involvement in the operations of the disposal component and (c) the appropriate (re)assessment period for purposes of assessing whether the criteria in paragraph 42 have been met. The consensus was ratified by the FASB at their November 30 2004 meeting and should be applied to a component of an enterprise that is either disposed of or classified as held for sale in fiscal periods beginning after December 15 2004. The Company does not anticipate a material impact on the financial statements from the adoption of this consensus. Recently Issued Accounting Pronouncements and Proposed Accounting Changes Contractual Obligations Off-Balance Sheet Arrangements Payments due by period (in thousands) Contractual Less than More than Obligations Total 1 year 1-3 years 3-5 years 5 years Long-term debt $11 347 $ 3 514 $ 7 250 $ 583 $ 0 Capital leases 2 777 230 460 460 1 627 Operating leases 13 498 3 461 6 420 3 617 0 Purchase obligations 2 927 2 927 0 0 0 Total obligations $30 549 $10 132 $14 130 $4 660 $1 627 25 | financial_reports |
use publicly available data demonstrating ”open research” (van der Aalst et al. 2016). We contacted all authors of the remaining papers twice but did not receive software or data to use for comparative evaluation. We use the same datasets as Breuker et al. (2016). The BPI Challenge 2012 dataset (van Dongen 2012) is a real dataset from a loan application process in a Dutch financial institute with 13087 traces. It can be separated into three sub- processes concerning the application itself (A) the offer (O) and the work item (W) belonging to the application. The BPI Challenge 2013 datasets (van Dongen 2013a b) are real datasets from IT incident and problem management processes at Volvo Belgium with 7553 and 2300 traces respectively. In addition to separating the BPI 2012 data set by sub-process as done by Breuker et al. (2016) we also use the combined dataset. While Breuker et al. (2016) use only activity completion events for the BPI 2012 dataset we also test our approach on all events (including the lifecycle transitions ”Start” ”Schedule” and ”Complete”). However only the ”W” subset has events other than completion events. Furthermore we include an experimental condition where we extract the ac- tivity name and lifecycle transition and combine this with the name of the resource associated with the event (cf. Sec. 3.5). We simply concatenate the two character strings to form the composite word. This creates a larger vocabulary which in- creases the prediction difficulty but also provides more information to the training algorithm. It also allows prediction of not only the activity of the next event but also the resource associated with the next event. Because the number of distinct resources in the BPI 2013 datasets is very large we use the organizational group instead of organizational resource. Table 2 shows characteristics of the datasets. The published datasets are transformed using XSL transformations to extract traces events and resource information in a suitable format. 15 | scientific_articles |
Corporate Information © Marriott International Inc. 2002. All rights reserved. CORPORATE HEADQUARTERS COMMON STOCK LISTINGS SHAREHOLDERS OF RECORD REGISTRAR AND TRANSFER AGENT INVESTOR RELATIONS INDEPENDENT PUBLIC ACCOUNTANTS ANNUAL MEETING OF SHAREHOLDERS Marriott International Inc. Marriott Drive Washington D.C. 20058 301/380-3000 Internet: www.marriott.com The company’s Class A common stock (ticker symbol: MAR) is listed on the New York Stock Exchange and other exchanges. 54 656 at January 31 2002 Shareholder inquiries regarding stock transfers dividend payments address changes enrollment in the company’s direct investment plan lost stock certificates or other stock account matters should be directed to: EquiServe Trust Company N.A. P. O. Box 2500 Jersey City N.J. 07303-2500 800/311-4816 Internet: www.equiserve.com For information call: 301/380-6500 Internet: www.marriott.com/investor Arthur Andersen LLP Vienna Virginia May 3 2002—10:30 a.m. JW Marriott Hotel 1331 Pennsylvania Avenue N.W. Washington D.C. COMMON STOCK PRICES AND DIVIDENDS TELEPHONE NUMBERS For reservations or information call: Dividends Stock Price Declared High Low Per Share 2001 – First quarter.............. 47.81 37.25 $ 0.060 –S econd quarter ......... 50.50 38.13 0.065 –T hird quarter............ 49.72 40.50 0.065 –F ourth quarter.......... 41.50 27.30 0.065 2000 – First quarter.............. 34 $^{3}$⁄$_{4}$ 26 $^{1}$⁄$_{8}$ $ 0.055 –S econd quarter ......... 38 29 $^{1}$⁄$_{2}$ 0.060 –T hird quarter............ 42 $^{3}$⁄$_{8}$ 34 $^{5}$⁄$_{8}$ 0.060 –F ourth quarter.......... 43 $^{1}$⁄$_{2}$ 34 $^{1}$⁄$_{8}$ 0.060 DEVELOPMENT INQUIRIES Marriott Hotels Resorts and Suites ................ 800/228-9290 Courtyard.......................................................... 800/321-2211 Fairfield Inn ...................................................... 800/228-2800 Residence Inn.................................................... 800/331-3131 The Ritz-Carlton Hotel Company L.L.C........ 800/241-3333 SpringHill Suites............................................... 888/287-9400 Renaissance Hotels Resorts and Suites........... 800/468-3571 Ramada International Hotels and Resorts...... 800/854-7854 To wnePlace Suites............................................. 800/257-3000 Bulgari Hotels & Resorts.................................. 678/420-6500 Marriott Vacation Club International............. 800/332-1333 The Ritz-Carlton Club ..................................... 800/941-4386 Horizons by Marriott Vacation Club .............. 888/220-2086 Marriott Grand Residence Club ...................... 866/204-7263 Marriott ExecuStay........................................... 888/840-7829 Marriott Conference Centers........................... 800/453-0309 Marriott Executive Apartments ....................... 800/800-5744 Marriott Senior Living Services....................... 800/880-3131 Marriott Distribution Services ........................ 301/380-2391 Lodging Full-Service .................................................. 301/380-3200 Select-Service and Extended-Stay............... 301/380-5237 Latin America .............................................. 301/380-7156 Europe Middle East and Africa.......... 011-411-723-5100 Asia/Pacific ......................................... 011-852-2521-1848 Senior Living Services ...................................... 301/380-7879 | financial_reports |
3 EP 3 800 020 A1 4 10 [0011] Die "Schlitzgeometrie" bezeichnet den Verlauf eines oder mehrerer Schlitzabschnitte welche auf dem Verschlusskappenrohling erzeugt werden sollen bzw. aufderfertiggestellten Verschlusskappe vorhanden sein sollen. Die Schlitzgeometrie weist Unterbrüche auf wo- durch Verbindungsstellen zwischen dem Grundteil und demSicherungsringbestehen bleiben.Die Verbindungs- stellen bilden dabei z.B. Stütz- oder Haltestege welche im Sinne von Sollbruchstellen beieinerganzen oderteil- weisen Trennung des GrundteilsvomSicherungsring zur Trennung vorgesehen sind und/oder Verbindungsab- schnitte welche beieinerteilweisen Trennung dazu vor- gesehen sind bestehen zu bleiben d.h. das Grundteil bleibt nach einer teilweisen Trennung mit dem Siche- rungsring im Verbindungsabschnitt verbunden. 25 30 35 20 [0010] Das "Schneidmesser" bezeichnet vorliegend eine Anordnung von einer oder mehreren Schneidklin- gen welche typischerweise länglich ausgebildet sind. Die Schneidklingen weisen in der Regel ein Blatt auf welches die Schneiden der Schneidklinge trägt. Schneiden können in einer Projektion parallel zur Dreh- achse des Stützdorns aufdie Transportebene geradlinig oder insbesondere vom Blatt her gesehen konkav ge- krümmt sein. 15 gebildet ist welche wenigstens der zu erzeugenden Schlitzgeometrie entspricht wobei die Vorrichtung eine Synchronisationseinrichtungumfasst mittelswelcherei- ne Bewegung der Transporteinrichtung entlang Schneidstrecke miteinerDrehbewegung des Stützdorns um die Drehachse synchronisierbar ist. [0009] Im vorliegenden Sinne bezeichnet "Schneidstrecke" einen Streckenabschnitt eines vonder Transporteinrichtung definierten Transportweges des Verschlusskappenrohlings während des Schneidvor- gangs. Die Schneidstrecke ist dabei in einer Transpor- tebene angeordnet welche senkrecht zur Drehachse des Stützdorns steht. Typischerweise ist die Transpor- tebene horizontal ausgerichtet. 5 [0012] Der "Schneidenverlauf" der Schneidklinge be- zeichnet vorliegend gesamthaft die folgenden zwei im Allgemeinen überlagerten VerläufederSchneide:Einen Längsverlauf welcher den Schneidenverlauf längs der Schneidstrecke bezeichnet sowie einen Höhenverlauf welcher den Schneidenverlauf in einer Richtung senk- rechtzurSchneidstrecke und parallelzurDrehachse des Stützdorns bezeichnet. Um die Unterbrüche zwischen einzelnen Schlitzabschnitten der Schlitzgeometrie zur erzeugen kann z.B.derLängsverlaufderSchneidklinge entsprechend unterbrochen sein.Fallsz.B.ein gewellter Verlauf der Schlitzgeometrie im Mantel der Verschluss- kappe erzeugt werden soll hat die Schneidklinge einen entsprechenden welligen Höhenverlauf. Sollte es erfor- derlich sein dass zusätzlich zu der Schlitzgeometri auch nur geschwächte Bereiche im Mantel des schlusskappenrohlings erzeugt werden sollen d.h. Be- reiche in welchen der Mantel der Verschlusskappe ein- geschnitten abernichtdurchschnitten werden soll kann zusätzlich auch ein Tiefenverlauf vorhanden sein wel- 45 55 50 40 [0015] Die Nutgeometrie ist bevorzugt an einer Man- telfläche im Stützabschnitt des Stützdorns ausgebildet. Der Stützabschnittliegt insbesondere mitder Mantelflä- che während des Schneidvorgangs insbesondere im momentanen Schneidbereich und bevorzugt direkt an einer Innenfläche des Mantels des Verschlusskappen- rohlings an. Ein grösster radialer Aussendurchmesser des Stützabschnitts ist dabei bevorzugt kleiner als ein kleinsterradialerInnendurchmesserdes Verschlusskap- [0014] Die erfindungsgemässe Nutgeometrie Stützbereich des Stützdorns entspricht wenigstens der zu erzeugenden Schlitzgeometrie d.h.die Nutgeometrie ist derart ausgebildet dass sie im Zuge eines vollstän- digen Schneidvorgangs wenigstens den Verlauf der ge- samten Schneidklinge erfasst. Dies schliesst nicht aus dass die Nutgeometriez.B.aus herstellungstechnischen Gründen auch weitere Nutabschnitte umfassen kann welche über die vom Schneidmesser bzw. von dessen Schneidklingen definierte Schlitzgeometrie hinausge- hen. Es versteht sich dass dieselben Nutabschnitte im Zuge von mehr als einer Umdrehung des Stützdorns während des Schneidvorgangs verschiedene Abschnitte des Verlaufs der Schneidklinge erfassen können. [0013] Der Transport des Verschlusskappenrohlings durch die Transporteinrichtung umfasst eine translatori- sche Bewegung längs des Transportweges (Vorschub) sowie einediesemVorschub überlagerteDrehbewegung um eine zur Drehachse des Stützdorns parallele oder koaxiale Drehachse. Die Drehbewegung des schlusskappenrohlings wird von einer Drehung Stützdorns umdie durch die drehbare Lagerung definier- te Drehachse unterstützt bzw. erreicht. Auf diese Weise kann derManteldes Verschlusskappenrohlings während des Transports längs der Schneidstrecke auf Schneidklingen abgewälzt werden. cher den Schneidenverlauf in einer Richtung senkrecht zur Schneidstrecke und senkrecht zur Drehachse des Stützdorns bezeichnet. Die "Transporteinrichtung" be- zeichneteine Vorrichtung welche derartausgebildet ist dass der Verschlusskappenrohling in der Schneidstre- cke derart am Schneidmesser vorbeitransportiert wer- den kann dass ein Schneidvorgang d.h. ein Einschnei- den des Mantels des Verschlusskappenrohlings durch das stationäre Schneidmesser erfolgt. Typischerweise greift der Stützdorn der Transporteinrichtung mit dem Stützabschnitt derart in einen Innenraum des schlusskappenrohlings ein dass der Mantel des schlusskappenrohlings vom Innenraum her vom Stütz- abschnitt in einem momentanen Schneidbereich gegen die Schneidklinge geführt wird. Dabei unterstützt Stützbereich des Stützdorns den Mantel insbesondere durch direkte Anlage an einer Mantelinnenseite im mo- mentanen Schneidbereich. "Direkte Anlage" bezeichnet hierbei einen unmittelbarenKontakt des Stützbereichs des StützdornsmitderInnenfläche des Mantelabschnitts zumindestimmomentanen Schneidbereich d.h.in dem- jenigen Mantelabschnitt in welchem gerade Schneidvorgang erfolgt. 3 | patents |
MySQL Source-Configuration Options Formats Description Default Introduced Removed DISABLE_PSI_STAGE Exclude Performance Schema stage instrumentation OFF DISABLE_PSI_STATEMENT Exclude Performance Schema statement instrumentation OFF DISABLE_PSI_STATEMENT_DIGEST Exclude Performance Schema statements_digest instrumentation OFF DISABLE_PSI_TABLE Exclude Performance Schema table instrumentation OFF DISABLE_PSI_THREAD Exclude the performance schema thread instrumentation OFF DISABLE_PSI_TRANSACTION Exclude the performance schema transaction instrumentation OFF DISABLE_SHARED Do not build shared libraries compile position-dependent code OFF 8.0.18 DOWNLOAD_BOOST Whether to download the Boost library OFF DOWNLOAD_BOOST_TIMEOUT Timeout in seconds for downloading the Boost library 600 ENABLED_LOCAL_INFILE Whether to enable LOCAL for LOAD DATA OFF ENABLED_PROFILING Whether to enable query profiling code ON ENABLE_DOWNLOADS Whether to download optional files OFF 8.0.26 ENABLE_EXPERIMENTAL_SYSVARS Whether to enabled experimental InnoDB system variables OFF 218 | manuals |
MySQL Source-Configuration Options That command configures the distribution to use the installed OpenSSL library. Alternatively to explicitly specify the path name to the OpenSSL installation use the following syntax. This can be useful if you have multiple versions of OpenSSL installed to prevent CMake from choosing the wrong one: cmake . -DWITH_SSL= path_name 3. Compile and install the distribution. To check whether a mysqld server supports encrypted connections examine the value of the have_ssl system variable: mysql> SHOW VARIABLES LIKE ’have_ssl’; +---------------+-------+ | Variable_name | Value | +---------------+-------+ | have_ssl | YES | +---------------+-------+ If the value is YES the server supports encrypted connections. If the value is DISABLED the server is capable of supporting encrypted connections but was not started with the appropriate --ssl- xxx options to enable encrypted connections to be used; see Section 6.3.1 “Configuring MySQL to Use Encrypted Connections” . The CMake program provides a great deal of control over how you configure a MySQL source distribution. Typically you do this using options on the CMake command line. For information about options supported by CMake run either of these commands in the top-level source directory: cmake . -LH ccmake . 2.9.7 MySQL Source-Configuration Options You can also affect CMake using certain environment variables. See Section 4.9 “Environment Variables” . For boolean options the value may be specified as 1 or ON to enable the option or as 0 or OFF to disable the option. Many options configure compile-time defaults that can be overridden at server startup. For example the CMAKE_INSTALL_PREFIX MYSQL_TCP_PORT and MYSQL_UNIX_ADDR options that configure the default installation base directory location TCP/IP port number and Unix socket file can be changed at server startup with the --basedir --port and --socket options for mysqld . Where applicable configuration option descriptions indicate the corresponding mysqld startup option. The following sections provide more information about CMake options. •CMake Option Reference •General Options •Installation Layout Options •Storage Engine Options •Feature Options •Compiler Flags •CMake Options for Compiling NDB Cluster 215 | manuals |
MySQL Installer for Windows c. With the server instance selected use the arrow to move the selected server to the Products To Be Installed list. d. Click the server to select it. When you select the server the Advanced Options link is enabled below the list of products to be installed (see the following figure). 2. Click Advanced Options to open a dialog box where you can enter alternative path names. After the path names are validated click Next to continue with the configuration steps. Figure 2.9 Change MySQL Server Path 2.3.3.3 Installation Workflows with MySQL Installer MySQL Installer provides a wizard-like tool to install and configure new MySQL products for Windows. Unlike the initial setup which runs only once MySQL Installer invokes the wizard each time you download or install a new product. For first-time installations the steps of the initial setup proceed directly into the steps of the installation. For assistance with product selection see Locating Products to Install. Note Full permissions are granted to the user executing MySQL Installer to all generated files such as my.ini . This does not apply to files and directories for specific products such as the MySQL server data directory in %ProgramData% that is owned by SYSTEM . Products installed and configured on a host follow a general pattern that might require your input during the various steps. If you attempt to install a product that is incompatible with the existing MySQL server version (or a version selected for upgrade) you are alerted about the possible mismatch. MySQL Installer provides the following sequence of actions that apply to different workflows: • Select Products. If you selected the Custom setup type during the initial setup or clicked Add from the MySQL Installer dashboard MySQL Installer includes this action in the sidebar. From this page you 125 | manuals |
Cloud Services For Dummies IBM Limited Edition 24 The key requirements for IaaS and PaaS include the following: ✓ A consistent platform that’s optimized to support a variety of workloads needed by customers ✓ An integrated stack of middleware optimized for automated deployment and management of heterogeneous workloads that dynamically adjusts ✓ Reliable highly secure and scalable platform ✓ A choice of deployment models that support the right service level quality of service and security required to support constituents The continuum of the cloud rests on the reliability and security of the platforms used and the track record of the cloud provider to support customers’ demands. These materials are the copyright of John Wiley & Sons Inc. and any dissemination distribution or unauthorized use is strictly prohibited. | manuals |
EP 3 800 021 A1 15 32 4141 36 | patents |
10 22 Q. Si G. Kotliar and A. Georges Phys. Rev. B 46 1261 (1992). 21 E. Akkermans and G. Montambaux Mesoscopic Physics of Electrons and Photons (Cambridge University Press Cam- bridge 2007). | scientific_articles |
Radian Group Inc. Notes to Consolidated Financial Statements - (Continued) Special Mention . This category includes insured transactions that are internally rated no more than two rating levels below investment grade. Although these insured transactions typically are not performing as expected we have determined that such transactions are not expected to have severe prolonged stress and we do not believe that claim payments are imminent. The credits in this category could have all or some of the following characteristics: Direct and assumed exposures in this category that satisfy certain criteria including minimum outstanding par thresholds are typically reviewed annually or more frequently if there is a change to the credit profile. Other exposures that do not satisfy applicable criteria are reviewed at the discretion of the risk manager senior management the Watch and Reserve Committee Chairperson or the Chief Risk Of ficer for our financial guaranty business. Intensified Surveillance . This category includes transactions in financial guaranty’ s insured portfolio that are internally rated below investment grade and indicate a severe and often permanent adverse change in the transaction’ s credit profile. Transactions in this category are still performing meaning they have not yet defaulted on a payment but our risk management department has determined that there is a substantial likelihood of default. Transactions that are placed in this category may have some or all of the following characteristics: Insured transactions are generally elevated into this category from the Special Mention list as a result of continuing declining credit trends. Occasionally however transactions may enter this category directly due to an unexpected financial event that leads to rapid and severe deterioration. Direct and assumed exposures in this category that satisfy certain criteria including minimum outstanding par thresholds are generally reviewed quarterly . Other exposures that do not satisfy applicable criteria are reviewed at the discretion of the risk manager senior management the Watch and Reserve Committee Chairperson or the Chief Risk Officer for our financial guaranty business. • requires the allocation of claim liability reserves. • requires frequent monitoring and risk management action to prevent and mitigate possible claims; and • debtors or servicers with distressed operations that we believe have a questionable ability to continue operating in the future without external assistance from government and/or private third parties; • impaired ability to satisfy future payments; • non-investment grade transactions with high credit risk and low possibility of recovery back to performing levels; 230 • requires additional monitoring by the risk manager to evaluate developing potentially adverse credit trends. • vulnerability to further downward pressure which could lead to dif ficulty in covering future debt obligations; and • limited capacity for absorbing volatility and uncertainty; • slight probability of payment default due to current adverse economic conditions and operating challenges; • non-investment grade obligations with increasing credit risk but with the possibility of recovering and returning to investment grade levels; | financial_reports |
[82-75; 1791-16.] S ECTION 463 . Redemption of Distrained Property . — The owner of personal property seized for the non-payment of taxes hereunder may redeem the same from the collecting officer at any time after seizure and before sale by tendering to him the amount of the t ax the penalty and the costs incurred up to the time of tender. The costs to be charged in making such seizure and sale shall only embrace the actual expense of seizure and preservation of the property pending the sale and no charge shall be imposed for the services of the collecting officer or his deputy. DHcTaE [82-76.] S ECTION 464 . Final Vesting of Property in Provincial Government . — Upon the expiration of one year from the date whereon delinquency in the payment of the real property tax occurred and in the event of continued default in payment of the tax and penalty all private right title and interest in and to the property upon which the said tax is delinquent shall become indefeasibly vested in the government of the province wherein said property is situated subject only to the rights of redemption and repurchas e hereinbelow conferred. [82-79; 1791-19.] S ECTION 465 . Redemption by Owner . — At any time after delinquency shall have occurred but not later than the expiration of ninety full days from the date of the publication of the notice prescribed in the next succeeding section hereof the owner or his l egal representative or any person having a lien leasehold or other legal or equitable interest in or upon such property may satisfy the taxes and penalties then due and thereby redeem the property. Such redemption shall operate to divest the provincial g overnment of its title to the property in question and to revert the same in the original owner but where such redemption is effected by a person other than the owner the payment shall constitute a lien upon the property and the person making payment sha ll be entitled to recover it from the original owner or if he be a lessee he may retain the amount from any rent owing from him to the owner upon the property. STaCIA [82-79; 1791-19.] S ECTION 466 . Manner of Effecting Publication . — The publication required in the preceding section shall be made by the posting of notices at the main entrance of the provincial building and of all municipal buildings and in a public and conspicuous place i n the barrio wherein the property is situated in English Spanish and the prevailing local dialect. Such notices shall contain the Copyright 2012 CD Technologies Asia Inc. and Accesslaw Inc. Philippine Law Encyclopedia 2011 147 | laws_and_regulations |
Net Assets and Financial Postition 24 Foreword | Mission | Management Report | Share | Marketing | Consolidated Financial Statements - IFRS - | Report of Supervisory Board | Board of Management Cash and cash equivalents 369.3 39.7% 190.6 27.2% 93.8% Inventories 201.1 21.6% 196.2 28.0% 2.5% Accounts receivables 189.6 20.4% 175.6 25.1% 8.0% Other short-term assets 0.3 0.0% 1.9 0.3% -85.6% Total current assets 760.3 81.8% 564.3 80.6% 34.7% Deferred income taxes 51.6 5.6% 36.5 5.2% 41.6% Long-term assets 117.7 12.7% 99.4 14.2% 18.4% Total assets 929.6 100.0% 700.1 100.0% 32.8% Bank borrowings 12.9 1.4% 16.8 2.4% -23.0% Other liabilities 269.8 29.0% 204.8 29.3% 31.8% Total current liabilities 282.8 30.4% 221.6 31.7% 27.6% Pension 21.2 2.3% 18.5 2.6% 14.2% Tax provision 33.7 3.6% 27.1 3.9% 24.5% Other provisions 53.8 5.8% 49.0 7.0% 9.8% Provisions 108.7 11.7% 94.6 13.5% 14.9% Long-term interest bearing borrowings and minorities 2.4 0.3% 0.8 0.1% 196.0% Shareholders’ equity 535.8 57.6% 383.0 54.7% 39.9% Total liabilities and shareholders’ equity 929.6 100.0% 700.1 100.0% 32.8% Working capital 148.4 155.7 -4.7% - in % of sales 9.7% 12.2% Consolidated Balance Sheet Structure 2004 2003 +/- % € million % € million % | financial_reports |
Bristol-Myers Squibb Company 345 Park Avenue • New York NY 10154-0037 212-546-4000 • www.bms.com | financial_reports |
OPERATING AND FINANCIAL REVIEW Adjusted figures are used by Reed Elsevier as additional performance measures and are stated before amortisation of goodwill and intangible assets and exceptional items. The Review of Operations refers to adjusted operating profit performance. Adjusted figures are used by Reed Elsevier as additional performance measures and are stated before amortisation of goodwill and intangible assets and exceptional items. Reported operating results including amortisation of goodwill and intangible assets and exceptional items are analysed in note 1 to the combined financial statements and discussed further below in the Financial Review and are reconciled to the adjusted figures in note 10 to the combined financial statements. Unless otherwise indicated all percentage movements in the following commentary refer to constant currency rates using 2002 full year average rates and are stated before the amortisation of goodwill and intangible assets and exceptional items. REED ELSEVIER ANNUAL REPORTS & FINANCIAL STATEMENTS 2003 7 REVIEW OF OPERATIONS % change 2003 2002 2003 2002 at constant £m £m € m € m currencies Turnover Science & Medical 1 381 1 295 2 002 2 059 8% Legal 1 318 1 349 1 911 2 145 3% Education 898 993 1 302 1 579 –3% Business 1 328 1 383 1 926 2 199 –4% Total 4 925 5 020 7 141 7 982 1% Adjusted operating profit Science & Medical 467 429 677 682 8% Legal 301 287 437 456 10% Education 174 183 252 291 2% Business 236 234 342 372 – Total 1 178 1 133 1 708 1 801 6% | financial_reports |
TM 10-1670-287-23&P 0002 00 4. The reserve deployment system allows reserve canopy deployment even if the reserve pilot chute becomes entangled/snagged with the parachutist or equipment. 1. Main Parachute Assembly. The main parachute assembly consists of a pilot chute connected by a bridle line to a seven-cell ram air canopy. A deployment bag is used to stow the canopy and suspension lines. The pilot chute bridle line and deployment bag comprise the main deployment system. The deployment bag is packed in the bottom compartment of the container assembly with risers attached to the main harness using a three-ring release system. A single-point release can be used to actuate the three-ring release system and to disengage the risers from the harness. LOCATION AND DESCRIPTION OF MAJOR COMPONENTS Deployment Bag Bridle Line Main Canopy Slider Toggles Riser Reserve Ripcord Harness Main Ripcord Main Canopy Ripcord Release Assembly Pilot Chute Change 1 0002 00-4 | laws_and_regulations |
We reproduced a simulation study from Section 4.1 of Racine et al. (2006) at sample size n = 100. In particular we let Y = 1+ βA (1+ W 2 $_{2}$)+ W$_{1}$ + W$_{2}$ + ϵ where A W$_{1}$ and W$_{2}$ are drawn independently from Bernoulli(0 . 5) Bernoulli(0 . 5) and N (0 1) distributions respectively. The error term ϵ is unobserved and drawn from a N (0 1) distribution independently of all observed variables. The parameter β was varied over values − 0 . 5 − 0 . 4 ... 0 . 4 0 . 5 to achieve a range of distributions. The goal is to test whether E$_{0}$ ( Y | A W ) = E$_{0}$ ( Y | W ) almost surely or equivalently that µ (1 W ) − µ (0 W ) = 0 almost surely. expect. We are not aware of any other test devised for this hypothesis. Due to computational constraints we only ran the ‘Bootstrap I test’ to evaluate sig- nificance of the method of Racine et al. (2006). As the authors report this method is anticonservative relative to their ‘Bootstrap II test’ and indeed achieves lower power (but proper type I error control) in their simulations. Except for two minor modifications our implementation of the method in Example 1 is similar to that as for Simulation 1. For a fair comparison with Racine et al. (2006) in this simulation study we estimated P$_{0}$ ( A = 1 | W ) rather than treating it as known. We did this using the same Super Learner library and the ‘ family=binomial ’ setting to account for 29 6.2 Simulation scenario 2: comparison with Racine et al. (2006) Figure 2: Empirical probability of rejecting the null when testing the null hypothesis that µ (1 W ) is equal in distribution to µ (0 W ) (Example 2) in Simulation 1. Table 1 indicates that the null is true in Simulations 1a and 1b and the alternative is true in Simulation 1c. 0.040 0.045 0.050 0.02 0.03 0.04 0.05 0.06 0.2 0.4 0.6 0.8 Sim 1a Sim 1b Sim 1c 125 250 500 1000 2000 Sample Size Probability of Rejecting the Null | scientific_articles |
1.00 1.05 1.10 1.15 1.20 0 1 2 3 4 5 6 fRG / CDM z = 0.174 h Mpc -1 n=2 =1 n=2 =3 n=2 =10 FIG. 3: The ratio of linear density perturbations δ$_{fRG}$/δ$_{ΛCDM}$ ( k = 0 . 174 h Mpc − $^{1}$) as a function of redshift for three different values of λ with n = 2. ( δ$_{fRG}$/δ$_{ΛCDM}$ ) $^{2}$( k = 0 . 174 h Mpc − $^{1}$) ≲ 1 . 1. Although we neglect non-linear effects here the difference between linear calculation and non-linear N-body simulation remained smaller than 5% at the wavenumber 0 . 174 h Mpc − $^{1}$[32]. Figures 4 represent ( δ$_{fRG}$/δ$_{ΛCDM}$ ) $^{2}$( k = 0 . 174 h Mpc − $^{1}$) as a function of λ for n = 2 3 and 4. From the analytic formula (19) this λ dependence would have the form ( δ$_{fRG}$/δ$_{ΛCDM}$ ) 2 ∝ C $^{2}$( k ) ∝ λ − (2 n − p $_{$_{n}$+1)(}$√$_{33}$ − 5) 4(3 n +2) which is depicted by a broken line in each figure. This curve however does not match the asymptotic behaviour ( δ$_{fRG}$/δ$_{ΛCDM}$ ) 2 −→ 1 for large λ . We find that an exponential function fits the numerical calculation very well with ( n b$_{n}$ q$_{n}$ ) = (2 0 . 47 0 . 19) (3 0 . 43 0 . 49) and (4 0 . 39 0 . 70) respectively. From these figures in order to keep deviation from ΛCDM model smaller than 10% at k = 0 . 174 h Mpc − $^{1}$ we find λ should be larger than 8.2 3.0 and 1.9 for n = 2 3 and 4 respectively. ( δ$_{fRG}$/δ$_{ΛCDM}$ ) 2 = 1 + b$_{n}$e − q$_{n}$λ (29) From these analysis we can constrain the parameter space as Fig. 5. The region which 11 | scientific_articles |
MongoDB Documentation Release 3.0.4 Process Overview Indications When you are aware of a mongod instance running without journaling that stops unexpectedly and you’re not running with replication you should always run the repair operation before starting MongoDB again. If you’re using replication then restore from a backup and allow replication to perform an initial sync (page 593) to restore data. If the mongod.lock file in the data directory specified by dbPath /data/db by default is not a zero-byte file then mongod will refuse to start and you will find a message that contains the following line in your MongoDB log our output: This indicates that you need to run mongod with the --repair option. If you run repair when the mongodb.lock file exists in your dbPath or the optional --repairpath you will see a message that contains the following line: old lock file: /data/db/mongod.lock. probably means unclean shutdown Unclean shutdown detected. If you see this message as a last resort you may remove the lockfile and run the repair operation before starting the database normally as in the following procedure: Warning: Recovering a member of a replica set. Do not use this procedure to recover a member of a replica set . Instead you should either restore from a backup (page 184) or perform an initial sync using data from an intact member of the set as described in Resync a Member of a Replica Set (page 633). There are two processes to repair data files that result from an unexpected shutdown: • Use the --repair option in conjunction with the --repairpath option. mongod will read the existing data files and write the existing data to new data files. You do not need to remove the mongod.lock file before using this procedure. • Use the --repair option. mongod will read the existing data files write the existing data to new files and replace the existing possibly corrupt files with new files. You must remove the mongod.lock file before using this procedure. Note: --repair functionality is also available in the shell with the db.repairDatabase() helper for the repairDatabase command. Procedures Important: Always Run mongod as the same user to avoid changing the permissions of the MongoDB data files. Repair Data Files and Preserve Original Files To repair your data files using the --repairpath option to preserve the original data files unmodified. Repair Data Files without Preserving Original Files To repair your data files without preserving the original files do not use the --repairpath option as in the following procedure: Warning: After you remove the mongod.lock file you must run the --repair process before using your database. Chapter 5. Administration 264 | manuals |
UCI CYCLING REGULATIONS The criteria above concern any element or fact arising prior to the application for registration being decided upon. (text modified on 1.11.15; 12.01.17). (text modified on 12.01.17) (text modified on 20.10.05; 1.08.06; 15.06.08; 1.07.09; 1.01.10; 12.01.17). (text modified on 12.01.17) (text modified on 12.01.17) (text modified on 12.01.17) (text modified on 12.01.17) The Professional Cycling Council may also take account of acknowledged facts. (text modified on 18.06.07; 12.01.17). 2.15.148 The applicant shall submit the application for registration by completing and returning the form drafted by the Professional Cycling Council including all the information or other documents as required by the council. 2.15.149 The deadline for the submission of the application for registration is set by the Professional Cycling Council. 2.15.150 The Professional Cycling Council shall have no obligation to examine applications sent to the UCI after the date set by the Professional Cycling Council. 2.15.151 On proposal by the UCI or on its own initiative the Professional Cycling Council may invite events considered to be of strategic importance to the development of cycling to apply for registration on the UCI WorldTour calendar. 2.15.152 The Professional Cycling Council shall inform the owners of selected events in writing and may notify them a deadline for the provision of all the required documents. 2.15.153 The owner of an event invited to apply for registration on the UCI WorldTour calendar by the Professional Cycling Council must submit an application in accordance with the procedure set out in the Professional Cycling Council's notification. 2.15.154 The Professional Cycling Council shall examine the applications for registration on the basis of documentation consisting of the following elements: 1. the registration application form and its enclosures; 2. the opinion of the UCI and/or any entity created for the purpose of reviewing applications; 3. any other document or information provided by the applicant or required for the assessment of the application by the UCI the Professional Cycling Council or any entity created for the purpose of reviewing applications. Registration on the UCI WorldTour calendar Application on proposal of the Professional Cycling Council E170421 ROAD RACES 232 | manuals |
Table of Contents Core Logic Inc. Notes to the Consolidated Financial Statements For the Years Ended December 31 2020 2019 and 2018 Note 5 - Other Intangible Assets Net Other intangible assets net as of December 31 2020 and 2019 consist of the following: Amortization expense for other intangible assets was $56.7 million $60.0 million and $63.4 million for the years ended December 31 2020 2019 and 2018 respectively. No impairment losses for other intangible assets were recorded for the year ended December 31 2020. Impairment losses of $35.6 million were recorded for the year ended December 31 2019. No impairment losses for other intangible assets were recorded for the year ended December 31 2018. See Note 10 - Fair Value for further discussion. Estimated amortization expense for other intangible assets anticipated for the next five years is as follows: 2020 2019 (in thousands) Gross Accumulated Amortization Net Gross Accumulated Amortization Net Client lists $ 644 000 $ (377 409) $ 266 591 $ 645 770 $ (340 168) $ 305 602 Non-compete agreements 26 763 (21 570) 5 193 26 409 (16 249) 10 160 Tradenames and licenses 127 718 (78 581) 49 137 126 405 (66 538) 59 867 Total $ 798 481 $ (477 560) $ 320 921 $ 798 584 $ (422 955) $ 375 629 (in thousands) 2021 $ 54 039 2022 52 133 2023 43 729 2024 35 476 2025 31 925 Thereafter 103 619 Total $ 320 921 67 | financial_reports |
MongoDB Documentation Release 3.0.4 6.5.2 Configure Role-Based Access Control 6.5.3 Encrypt Communication 6.5.4 Limit Network Exposure 6.5.5 Audit System Activity 6.5.6 Encrypt and Protect Data 6.5.7 Run MongoDB with a Dedicated User Create roles that define the exact access a set of users needs. Follow a principle of least privilege. Then create users and assign them only the roles they need to perform their operations. A user can be a person or a client application. Create a user administrator first then create additional users. Create a unique MongoDB user for each person and application that accesses the system. See Authorization (page 324) Create a Role (page 388) Create a User Administrator (page 384) and Add a User to a Database (page 386). Configure MongoDB to use TLS/SSL for all incoming and outgoing connections. Use TLS/SSL to encrypt commu- nication between mongod and mongos components of a MongoDB client as well as between all applications and MongoDB. See Configure mongod and mongos for TLS/SSL (page 342). Ensure that MongoDB runs in a trusted network environment and limit the interfaces on which MongoDB instances listen for incoming connections. Allow only trusted clients to access the network interfaces and ports on which MongoDB instances are available. See the bindIp setting and see Configure Linux iptables Firewall for MongoDB (page 335) and Configure Windows netsh Firewall for MongoDB (page 339). Track access and changes to database configurations and data. MongoDB Enterprise 88 includes a system auditing facility that can record system events (e.g. user operations connection events) on a MongoDB instance. These audit records permit forensic analysis and allow administrators to verify proper controls. See Auditing (page 330) and Configure System Events Auditing (page 398). Encrypt MongoDB data on each host using file-system device or physical encryption. Protect MongoDB data using file-system permissions. MongoDB data includes data files configuration files auditing logs and key files. Run MongoDB processes with a dedicated operating system user account. Ensure that the account has permissions to access data but no unnecessary permissions. See Install MongoDB (page 5) for more information on running MongoDB. $^{88}$http://www.mongodb.com/products/mongodb-enterprise?jmp=docs 432 Chapter 6. Security | manuals |
US 20200159115Al c19) United States c12) Patent Application Publication Ono et al. c10) Pub. No.: US 2020/0159115 Al (43) Pub. Date: May 21 2020 (54) NOVEL SALT COMPOUND CHEMICALLY AMPLIFIED RESIST COMPOSITION AND PATTERNING PROCESS (71) Applicant: Shin-Etsu Chemical Co. Ltd. Tokyo (JP) (72) Inventors: Emiko Ono Joetsu-shi (JP); Masayoshi Sagehashi Joetsu-shi (JP); Masahiro Fukushima Joetsu-shi (JP); Yuki Kera Joetsu-shi (JP) (73) Assignee: Shin-Etsu Chemical Co. Ltd. Tokyo (JP) (21) Appl. No.: 16/669 780 (22) Filed: Oct. 31 2019 (51) Int. Cl. (52) U.S. Cl. CPC .......... G03F 710045 (2013.01); G03F 710397 (2013.01); G03F 710382 (2013.01); C07D 307177 (2013.01); C07C 381112 (2013.01); G03F 7/162 (2013.01); C07D 311/00 (2013.01); C07D 333176 (2013.01); C07D 333/08 (2013.01); C07D 327106 (2013.01); C08F 220118 (2013.01); C07C 309112 (2013.01) G03F 71038 C07D 307177 C07C 381112 C07C 309112 C07D 311/00 C07D 333176 C07D 333/08 C07D 327106 C08F 220118 (2006.01) (2006.01) (2006.01) (2006.01) (2006.01) (2006.01) (2006.01) (2006.01) (2006.01) G03F 71004 G03F 71039 (2006.01) (2006.01) A novel salt having an amide bond in its anion structure is provided. A chemically amplified resist composition com› prising the salt has advantages including minimal defects and improved values of sensitivity LWR MEF and CDU when processed by lithography using high-energy radiation such as KrF excimer laser ArF excimer laser EB or EUV. Nov. 15 2018 (JP) ................................. 2018-214718 (30) Foreign Application Priority Data (57) ABSTRACT Publication Classification | patents |
On a method to resolve the nuclear activity in galaxies 9 Fig. 9.— Line ratio diagnostics derived from our ESO spectra. The solid curve shows the Starburst-AGN separation lines of Kew- ley et al. (2001) with the shaded region indicating their sample galaxies. Fig. 8.— Illustrating fluxes and velocities of the individual com- ponents listed in Table 1 without the effect of the PSF. The arrows show the fluxes and velocities assigned to the spiral arms which are fixed at -37 ′′ and 33 ′′ galactocentric distance. Filled boxes illustrate the nucleus crosses the jet and diamonds the cloud re- spectively. 7. CONCLUSIONS imply that their main absorption comes from the emis- sion line disk and not from the stellar bulge. The neg- ative mean velocity of the spiral arms speaks somewhat against this miscentering view with whatever weight this may have. We want to stress that our method i.a. because of the necessity to introduce number of more or less reasonable assumptions in order to decrease the number of free pa- rameters does not give a unique solution to the nuclear structure of NGC 1358. The differing velocities in the different lines give strong constraints for the line ratios. Experiments with our model for example shows that it is the weakness of [OIII] in the postshock cloud and nu- clear disk that causes the dip in velocity of the Eastern part of the velocity curve to be deeper in [OIII] and the [OIII] velocity curve to be flatter on both sides. But it is necessary to know with good precision the outer wings of the PSF in order to account for the influence of the strong components on the fainter ones. indicate a rather strong gradient within the nuclear disk (see Table 1) or as mentioned a difference in line ratios between an eventual absorbed counter-jet and Disk 2. The disk rotates in the potential of the stellar bulge at an angle to the kinematic symmetry plane of the bulge. Our slit is oriented close to the kinematic major axis of the disk but close to the kinematic minor axis of the stellar bulge (Dumas et al. 2007). The redshift of the central source in our model and the systematic redshift of the stellar bulge differ with about 100 km s − $^{1}$(Fig. 3). The slit crosses the spiral arms close to the photometric minor axis of the outer galactic disk (Fig. 1. Their mean velocity relative the nucleus is − 87 km s − $^{1}$. In view of the fact that our slit is parallel to the line of nodes of the emission line velocity field and perpendicular to the line of nodes of the stellar velocity field the difference in central velocity between our models and that of the stellar bulge as seen in Fig. 3 may be accounted for if our slit misses the central peak passing about 1 ′′ to the South of the nucleus. This would mean that our derived rotation curve is somewhat flatter than the true one and the intensities of the central source too faint. The NaD absorption lines measured with SPLOT show the same systematic redshift as the emission lines which would Nevertheless we argue that with this analysis we have made a step towards a resolution of the nuclear region of NGC 1358 into a number of different components with In our particular case the main draw back is that the observations are restricted to a single slit. To get all necessary information about the velocities and spatial distribution of the different components from an isolated spectrum is futile because of the very limited coverage and the unknown influence due to the point spread func- tion from sources outside the slit. By adding more slits there is still a difficulty to obtain an accurate and com- plete coverage (Lindblad et al. 1996). Obviously the ideal is an integral field spectrometer and an extension of the method to a two-dimensional treatment combined with comprehensive statistical analysis covering the en- tire region of interest. | scientific_articles |
Report of Management on Financial Statements The Board of Directors of BOK Financial maintains a Risk Oversight and Audit Committee consisting of outside directors that meet periodically with management and BOK Financial’s internal and independent auditors. The Committee considers the audit and nonaudit services to be performed by the independent auditors makes arrangements for the internal and independent audits and recommends BOK Financial’s selection of independent auditors. The Committee also reviews the results of the internal and independent audits considers and approves certain of BOK Financial’s accounting principles and practices and reviews various shareholder reports and other reports and filings. Management is responsible for the consolidated financial statements which have been prepared in accordance with accounting principles generally accepted in the United States. In management’s opinion the consolidated financial statements present fairly the financial conditions results of operations and cash flows of BOK Financial and its subsidiaries at the dates and for the periods indicated. BOK Financial and its subsidiaries maintain a system of internal accounting controls designed to provide reasonable assurance that transactions are executed in accordance with management’s general or specific authorization and are recorded as necessary to maintain accountability for assets and to permit preparation of financial statements in accordance with accounting principles generally accepted in the United States. This system includes written policies and procedures a corporate code of conduct an internal audit program and standards for the hiring and training of qualified personnel. Ernst & Young LLP certified public accountants have been engaged to audit the consolidated financial statements of BOK Financial and its subsidiaries. Their audit is conducted in accordance with auditing standards generally accepted in the United States and their report on BOK Financial’s consolidated financial statements is set forth below. We have audited the accompanying consolidated balance sheets of BOK Financial Corporation as of December 31 2001 and 2000 and the related consolidated statements of earnings changes in shareholders’ equity and cash flows for each of the three years in the period ended December 31 2001. These financial statements are the responsibility of the Company’s management. Our responsibility is to express an opinion on these financial statements based on our audits. significant estimates made by management as well as evaluating the overall financial statement presentation. We believe that our audits provide a reasonable basis for our opinion. In our opinion the consolidated financial statements referred to above present fairly in all material respects the consolidated financial position of BOK Financial Corporation at December 31 2001 and 2000 and the consolidated results of its operations and its cash flows for each of the three years in the period ended December 31 2001 in conformity with accounting principles generally accepted in the United States. We conducted our audits in accordance with auditing standards generally accepted in the United States. Those standards require that we plan and perform the audit to obtain reasonable assurance about whether the financial statements are free of material misstatement. An audit includes examining on a test basis evidence supporting the amounts and disclosures in the financial statements. An audit also includes assessing the accounting principles used and Ernst & Young LLP Tulsa Oklahoma January 23 2002 Report of Independent Auditors 28 | financial_reports |
11 EP 3 800 017 A1 12 7 2. A trimmer according to claim 1 wherein each of the guide portions isattached to each ofthe base portion 7. A trimmeraccording toanyone ofclaims1 to5 further comprisingafore-edge trimming portion thattrims the fore-edge portion of the bound material wherein the fore-edge trimming portion comprises the guide portions. 1. A trimmer that trims a bound material which has a book block and a cover attached to the book block the cover having flap portions adjacent to the fore- edge portionofthe bound material the trimmercom- prising: 6. A trimmer according to claim 4 further comprising: 5. A trimmer according to any one of claims 1 to further comprising a spring portion mounted be- tween the guide portion and the pressure portion wherein the guide portions are connected with the pressure portion via the spring portion and are movable with respectto thepressure portion by the spring portion. 4. A trimmer according to any one of claims 1 to wherein when the fore-edge portion of the bound material is trimmed by the trim cutter the book block is projected from the cover one end portions of the guide portions are contacted with the face and reverse surfaces of the project portion of the book block the bound material is moved toward the guide por- tions and the guide portions are inserted between the book block and the cover so as to peel the cover together with the flap portions up. 3. A trimmer according to claim 1 or 2 wherein each of the guide portions is inclined relative to face and reverse surfaces of the book block and the guide portions are widened toward the trim cutter. and the pressure portion. 1 The guide portion may have anarc-shaped cross section. 1 The driving mechanism 56 may be configured to move the table unit 3 toward the trim unit 4. And the driving mechanism 56 may be configured to move both the table unit 3 and the trim unit 4. 5 10 1 The guide portions 60 61 may be divided and awayfrom the baseportion 18 and thepressure por- tion 22. And the guide portions 60 61 may be ar- ranged for movement in a direction close to or away from the bound material 1. 15 20 25 30 35 40 a table that positions the bound material placed thereon; a table unit that rotates the table in such a man- ner that the bound material is rotated to each of top bottom and fore-edge trimming positions; and a driving mechanism that moves the table and the trim cutter in a direction close to or away from each other relatively wherein when the bound material is rotated to the fore- edge trimming position thebound materialismoved awayfromthe base portion and the pressure portion the one end portions of the guide portions are contacted with the face and reverse surfaces of the project portion of the book block the bound material is moved toward the guide portions the guide portions are inserted between the bookblockand the coverso as to peelthe cover together with the flap portions up. a trim cutter that trims the bound material; a blade receiving portion that receives an edge of the trim cutter; a base portion and a pressure portion that nip and position the bound material; and a pair of guide portions arranged for movement in a direction close to or away from the bound material wherein the guide portions are inserted between t book block and the coversoastopeelthecover togetherwith the flap portionsup whenthefore- edge portion of the bound material is trimmed by the trim cutter. 50 45 55 DESCRIPTION OF REFERENCE NUMBERS [0054] 1 bound material 50 cover 51 book block 51a projecting portion 50a flap portion 20 trim cutter 19 blade receiving portion 18 base portion 22 pressure portion 60 61 guide portion 60a 60b one end portion of guide portion 60b 61b other end portion of guide portion 62 spring portion 1a top edge portion of bound material 1b bottom edge portion of bound material 1c fore-edge portion of bound material Claims | patents |
200510108565. 2 be WA BO 13/15 HR Liq RE HARSRA ZARB EF EAZLABRFR—OR. BZUMERT 8A Li Mg Al Al-Li Ca Mg-In & Mg-Ag. BELZNTTZAFTKHAUNEBSZKKLCHRR. ZRE AR ZRUHMA. ZAR EWIERA. STEAAARR. TE EZBRAZBIFIHFM EG. WI FRBKRARBRITUS 28 TREA. AF KAÄLTZAHLFRNBZAZNM. ek FTOEHKEN SAFEARA FFARHARWHEA. 4 ITO RBERH (Corning AHBM: 150/cem’ EX: 1200Ä) ym 50mm = 50mm «0.7mm RAB RR. HHRMEHAR AREER AA PRA 5 rt BRAKE RARER 5 BPP AA UV Fo SHA 30 4. RG H IDE46 (44 Idemitz) AFRRARBRY LVUBR 600A AaB RIEAR. RE 85 wt%ty N N’-—K-N N’-=(1- RH )-(1 1?- RK R)-4 4-— BM (NPB) fr 15 wt%ey BH-013X (HG Idemitz LAGRAZRAMHHRARHDSHFBKSH) AERRK AEREARELVAGB mR 150A BRYWERBRA. RE & IDE140 (4 8 Idemitz) #4 BD-102 (4 4 Idemitz) VA ES RA RRL MR SV ER HAT. REF Alqgs RRARLAZLVBR DA REMHRTHRZ. RE KA LIF 1A #3 LE FEN FH Al 1000A HHAR K mi | patents |
7.3.3 Network connectivity The supported network connectivity functions for z/OS and z/VM are listed in Table 7-8. Table 7-8 Supported network connectivity functions for z/OS and z/VM Function a z/OS V2R3 z/OS V2R2 z/OS V2R1 z/OS V1R13 z/VM V7R1 z/VM V6R4 Checksum offload for IPV6 packets Y Y Y Y Y b Y b Checksum offload for LPAR-to-LPAR traffic with IPv4 and IPv6 Y Y Y Y Y b Y b Querying and displaying an OSA configuration Y Y Y Y Y Y QDIO data connection isolation for z/VM - - - - Y Y QDIO interface isolation for z/OS Y Y Y Y - - QDIO OLM (Optimized Latency Mode) Y Y Y Y - - Adapter interruptions for QDIO N N N N Y Y QDIO Diagnostic Synchronization Y Y Y Y N N IWQ (Inbound Workload Queuing) for OSA Y Y Y Y Y b Y b VLAN management enhancements Y Y Y Y Y c Y c GARP VLAN Registration Protocol Y Y Y Y Y Y Link aggregation support for z/VM - - - - Y Y Multi-vSwitch Link Aggregation - - - - Y Y Large send for IPV6 packets Y Y Y Y b Y b 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 d Y YYY YY 3 2 H i p e r S o c k t s Y YYY YY HiperSockets Completion Queue Y Y Y Y Y Y HiperSockets Virtual Switch Bridge - - - - Y Y HiperSockets Multiple Write Facility Y Y Y Y N N HiperSockets support of IPV6 Y Y Y Y Y Y HiperSockets Layer 2 support Y Y Y Y Y Y HiperSockets Network Traffic Analyzer for Linux on Z - - - - - - SMC-D and SMC-R SMC-D$^{e}$ over ISM (Internal Shared Memory) Y Y N N Y b Y b Chapter 7. Operating system support 255 | manuals |
US009868761B2 c12) United States Patent Goklen et al. (IO) Patent No.: US 9 868 761 B2 (45) Date of Patent: *Jan. 16 2018 (54) BUFFER SYSTEM FOR PROTEIN PURIFICATION (71) Applicant: GlaxoSmithKline LLC Wilmington DE (US) (72) Inventors: Kent E. Golden King of Prussia PA (US); Eric J. Suda Phoenixville PA (US); Antonio Raul Ubiera King of Prussia PA (US) (73) Assignee: GlaxoSmithKline LLC Wilmington DE (US) ( *) Notice: Subject to any disclaimer the term ofthis patent is extended or adjusted under 35 U.S.C. 154(b) by 0 days. This patent is subject to a terminal dis› claimer. (21) Appl. No.: 15/450 106 (22) Filed: Mar. 6 2017 (63) Continuation of application No. 14/007 689 filed as application No. PCT/US2012/031076 on Mar. 29 2012 now Pat. No. 9 624 261. (60) Provisional application No. 61/468 814 filed on Mar. 29 2011. (51) Int. Cl. (52) U.S. Cl. CPC ............ C07K 1122 (2013.01); BOID 1511871 (2013.01); BOID 151362 (2013.01); BOID 151363 (2013.01); BOID 1513809 (2013.01); BOID 1513847 (2013.01); BOID 151426 (2013.01); C07K 1136 (2013.01) (58) Field of Classification Search CPC ........ C07K 1/22; C07K 1/36; BOID 15/1871; BOID 15/362; BOID 15/363; BOID 15/3809; BOID 15/3847; BOID 15/426 See application file for complete search history. (56) References Cited U.S. PATENT DOCUMENTS Related U.S. Application Data (65) Prior Publication Data US 2017/0174721 Al Jun. 22 2017 (57) ABSTRACT 18 Claims 6 Drawing Sheets OTHER PUBLICATIONS FOREIGN PATENT DOCUMENTS 2006/0118492 Al 6/2006 Shieh et al. 2008/0193981 Al 8/2008 Fahrner et al. 2008/0207879 Al 8/2008 Artur et al. 2009/0148435 Al 6/2009 Lebreton et al. 2009/0280131 Al 11/2009 DiPadova et al. 2009/0297620 Al 12/2009 Kanehira 2010/0234577 Al 9/2010 Mazzola et al. EP EP WO WO WO 0 363 126 A 0617049 B WO 2006/138553 A2 WO 2010/063717 Al WO 2010/127069 Al 4/1990 9/1999 12/2006 6/2010 11/2010 C07K 1122 BOID 15138 C07K 1136 BOID 15118 BOID 15136 BOID 15142 (2006.01) (2006.01) (2006.01) (2006.01) (2006.01) (2006.01) 4 634 678 A 9 624 261 B2 * 2003/0004094 Al l/ 1987 Salstrom 4/2017 Goklen 1/2003 Ghose et al. C07K 1/18 A method for purifying a protein using a simplified sodium chloride-free buffer system that consists of two components (acid and base pairs) for appropriate solution pH control; and a third component for ionic strength control where the third component is the sodium salt conjugate base. Primary Examiner - Gary Counts (74) Attorney Agent or Firm - Elizabeth J. Hecht; Edward R. Gimmi * cited by examiner Zhou J. X. et al. pH-conductivity hybrid gradient cation-ex› change chromatography for process-scale monoclonal antibody purification. Journal of Chromatography A 1175 (2007) 69-80. Yu et al. Purification of hCG Monoclonal Antibodies by rProtein A Affinity Chromatography Chinese Journal of Pharmaceuticals 2010 41(8). Soto Perez J. and Frey D. D. Behavior of the Inadvertent pH Transient Formed by a Salt Gradient in the Ion-Exchange Chroma› tography of Proteins Biotechnol. Prog. 2005 21 902-910. Pabst T.M. Carta G. pH transitions in cation exchange chromato› graphic colunms containing weak acid groups. (2007) Journal of Chromatography A 1142 pp. 19-31. Ngo et al. Kosmotropes Enhance the Yield of Antibody Purified by Affinity Chromatography using Innnobilized Bacterial Innnuno› globulin Binding Proteins Journal oflnnnunoassay&Im› munochemistry 29: 105-115 2008. Mixed-mode Chromatography Selection Guide. http://www.pall. corn/main/laboratory /Ii terature-library-details. page? id =l 7 50 2 May 30 2012. Ghose S.; McNerney T. M. Hubbard B. pH transitions in ion› exchange systems: Role in the development of a cation exchange process for a recombinant protein. Biotechnol. Prog. 2002 18 530-537. Forsgren and Sjoquist J. Innnunol. 97:822 1966. Butler J. N. Ionic Equilibrium: Solubility and pH Calculations. John Wiley and Sons (1998). Bjorck and Kronvall J. Innnunol. 133:969 (1984)). Bjorck J. Innnunol. 140:1194 (1988). | patents |
Medical Summary— “The Bottom Line” Before even approaching the PPC you must take a moment to reflect upon your current medical physi - cal and psychological condition. It is in this reflective moment that you should begin to evaluate your ability to safely conduct the flight. Once satisfied with your self-evaluation the preflight inspection can then con - tinue. Using the “I’M SAFE” checklist is a smart way to start your preflight before getting to the powered parachute. Prior to flight assess your fitness as well as the aircraft’s airworthiness. [Figure 1-5] Figure 1-5. Prior to flight you should assess your fitness just as you evaluate the aircraft’s airworthiness. 1-9 | laws_and_regulations |
MANAGEMENT’S DISCUSSION & ANALYSIS this risk as minimal. Approximately 97% of accounts receivable are due from four customers at December 31 2012 and all accounts receivable are current. These main customers present good credit quality and historically have a high quality credit rating. Cash and cash equivalents The Company has cash and cash equivalents in the amount of $273 106 at December 31 2012 and mitigates its exposure to credit risk on its cash balances by maintaining its bank accounts with Canadian Chartered Banks and investing in low risk high liquidity investments. The Company received $750 000 under a capital expenditure grant agreement and has presented this amount as deferred revenue and considers it restricted cash as it can be spent only for qualified expenditures. During the year ended December 31 2012 the Company has expended of $41 223. The balance of this grant of $708 777 is presented as deferred revenue and restricted cash and cash equivalents on the balance sheet. There are no past due or impaired financial assets. The maximum exposure to credit risk is the carrying amount of the Company’s accounts receivable cash and cash equivalents and restricted cash and cash equivalents. The Company does not hold any collateral as security. B) LIQUIDITY RISK Liquidity risk relates to the risk that the Company will encounter difficulty in meeting its financial obligations. Under the renewed agreement with AFSC the long-term debt matures in January 2018. The Company may be exposed to liquidity risks if it is unable to collect its trade accounts receivable balances in a timely manner which could in turn impact the Company’s long-term ability to meet commitments under its current facilities. In order to manage this liquidity risk the Company regularly reviews its aged accounts receivable listing to ensure prompt collections. The Company regularly reviews its cash availability and whenever conditions permit the excess cash is deposited in short-term interest bearing instruments to generate revenue while maintaining liquidity. There is no assurance that the Company will obtain sufficient funding to execute its strategic business plan. The following are the contractual maturities of the Company’s financial liabilities and obligations. 0 - 1 YEAR 1 - 3 YEARS 4 - 7 YEARS 8 - 12 YEARS TOTAL $ $ $ $ $ Accounts payable and accrued liabilities 578 216 – – – 578 216 Long-term debt including interest 200 793 600 246 216 756 – 1 017 795 Royalties interest payable 25 037 – – – 25 037 Royalty financial liability 129 238 118 354 – – 247 592 Repayable CAAP funding – 177 590 177 590 118 393 473 573 Total 933 284 896 190 394 346 118 393 2 342 213 C) MARKET RISK Market risk is comprised of interest rate risk foreign currency risk and other price risk. The Company’s exposure to market risk is as follows: Foreign currency risk arises from the fluctuations in foreign exchange rates and the degree of volatility of these rates relative to the Canadian dollar. 1. Foreign currency risk CEAPRO Annual Report 2012 9 | financial_reports |
Rizal: First district — Composed of the municipalities of Caloocan Las Piñas Makati Malabon Navotas Parañaque Pasay Pateros San Felipe Neri San Juan del Monte and Taguig. Second district — Composed of the municipalities of Antipolo Binangonan C ainta Cardona Jalajala Mariquina Montalban Morong Pasig Pililla San Mateo Tanay and Taytay. cTAaDC Samar: First district — Composed of the municipalities of Allen Bobon Calbayog Capul Catarman Catubig Laoang Lavezares Mondragon Oquendo Palapag Pambujan San Antonio Santa Margarita and Tinambacan. Second district — Composed of the municipali ties of Almagro Basey Calbiga Catbalogan Gandara Santa Rita Santo Niño Tarangnan Villareal Wright and Zumarraga. Third district — Composed of the municipalities of Balangiga Borongan Dolores Guiuan Hernani Llorente Oras Salcedo San Julian Sulat and Taft. Sorsogon: First district — Composed of the municipalities of Bacon Barcelona Bulusan Casiguran Castilla Gubat Irosin Juban Matnog Prieto Diaz Santa Magdalena and Sorsogon. Second district — Composed of the municipalities of Aroroy Bulan Catain gan Dimasalang Donsol Magallanes Masbate Milagros Pilar San Fernando San Jacinto and San Pascual. TcEaDS Tarlac: First district — Composed of the municipalities of Anao Camiling Gerona Moncada Paniqui Pura San Clemente San Manuel and Santa Ignacia. Second district — Composed of the municipalities of Bamban Capas Concepcion La Paz Tarlac and Victo ria. Tayabas: First district — Composed of the municipalities of Atimonan Baler Candelaria Casiguran Dolores Infanta Lucban Lucena Mauban Pagbilao Polillo Sampaloc Sariaya Tayabas and Tiaong. Second district — Composed of the municipalities of Ala bat Boac Calauag Catanauan Gasan Guinayangan Gumaca Lopez Macalelon Mogpog Mulanay Pitogo Quezon San Narciso Santa Cruz Torrijos and Unisan. AScHCD [2045-5.] TITLE IV Judicial Power Embracing Courts of Superior Jurisdiction Justices of the Peace and Notaries Public CHAPTER 10 Courts of Superior Jurisdiction 52 Copyright 2012 CD Technologies Asia Inc. and Accesslaw Inc. Philippine Law Encyclopedia 2011 | laws_and_regulations |
(51) International Patent Classification: G06F 17/50 (2006.01) (21) International Application Number: (22) International Filing Date: (25) Filing Language: (26) Publication Language: (30) Priority Data: 62/71 1 018 27 July 2018 (27.07.2018) US (71) Applicant: TECHNISCHE UNIVERSITEIT EIND‹ HOVEN [NL/NL]; Den Dolech 2 5612 AZ Eindhoven (NL). (81) Designated States (unless otherwise indicated for every kind of national protection av ailable) . AE AG AL AM AO AT AU AZ BA BB BG BH BN BR BW BY BZ CA CH CL CN CO CR CU CZ DE DJ DK DM DO DZ EC EE EG ES FI GB GD GE GH GM GT HN HR HU ID IL IN IR IS JO JP KE KG KH KN KP KR KW KZ LA LC LK LR LS LU LY MA MD ME MG MK MN MW MX MY MZ NA NG NI NO NZ OM PA PE PG PH PL PT QA RO RS RU RW SA (74) Agent: FRKELLY; 27 Clyde Road Dublin D04 F838 (IE). (72) Inventors: COEHOORN Reinder; Florapark 110 5644 BZ Eindhoven (NL). BOBBERT Peter Arnold; De Vroente 91 5672 TVNuenen(NL). LIU Feilong; Julianas- traat 1 561 1 HS Eindhoven (NL). COTTAAR Jeroen; Palamedesweg 15 563 1KT Eindhoven (NL). PCT/EP20 19/070038 25 July 2019 (25.07.2019) English English (54) Title: THREE-DIMENSIONAL MASTER EQUATION SIMULATIONS OF CHARGE-CARRIER TRANSPORT AND RE‹ COMBINATION IN ORGANIC SEMICONDUCTOR MATERIALS AND DEVICES (57) Abstract: Three-dimensional master equation modeling for disordered semiconductor devices is provided. Charge transport is modeled as incoherent hopping between localized molecular states and recombination is modeled as a nearest-neighbor process where an electron at a first location and a hole at a second location can recombine at either the first location or the second location. Here the first and second locations are any pair of nearest neighbor locations. We have found that this nearest neighbor recombination model performs substantially better than the conventional local recombination model where an electron and a hole must be at the same location to recombine. The recombination rate is modeled as a product of a prefactor Y hopping rates and state occupancies. Importantly we have found that sufficient simulation accuracy can be obtained by taking Y to be given by an empirically derived analytic expression. [Continued on next page] FIG. 1B Voltage [V] | patents |
E.2.4.2 PM Emissions Modeling APPENDIX E$_{ }$ MOVES is the EPA- approved model to estimate PM exhaust brake wear and tire emissions for PM hot-spot analyses outside of California. Figure E-2 ( Steps for Using MOVES in a Quantitative PM Hot-spot Analysis ) provides the necessary steps for applying the MOVES model for project-level PM hot-spot analyses. Figure E-2. Steps for Using MOVES in a Quantitative PM Hot-spot Analysis Source: EPA Transportation Conformity Guidance for Quantitative Hot-spot Analyses in PM$_{2.5 }$and PM$_{10 }$Non- attainment and Maintenance Area s November 2013 [EPA-420-B-1013-040053]. 94$_{ }$ | laws_and_regulations |
TM 10-1670-287-23&P 0059 00 0059 00-4 SECTION REPLACEMENT BOTTOM SKIN VIEW 4 END OF WORK PACKAGE INSIDE CANOPY Single Row Stitching ¼-IN. Seam New Section Bottom Skin VIEW 5 LOADED RIB NON-LOADED RIB LOADED RIB New Section Bottom Skin VIEW 6 LOADED RIB LOADED RIB NON-LOADED RIB New Section Bottom Skin | laws_and_regulations |
Figure 5: ASC and RPM simulations with variability in intermediate node policy. ρ ( x ) taken as in Figure 1. Top row shows proper rhetorical issue ( x$_{0}$ = 0) for ( a ) complete network and ( b ) chain network. Bottom row shows improper rhetorical issue ( x$_{0}$ = − 5) for ( c ) complete network and ( d ) chain network. Positive and negative policy sides are on positive and negative horizontal axis respectively. Polarization shift δ = ¯ x ( t$_{f}$ ) − ¯ x (0) plotted as a function of the initial policy disagreement Δ = x$_{3}$ − x$_{1}$ . Shift toward the extreme corresponds to δ > 0 for positive policy side and δ < 0 for negative side. The position of the intermediate node was varied according to x$_{2}$ = ± (6 + ϵ ) for the positive and negative policy sides and where ϵ takes on 41 uniformly-spaced values over the interval [ − 1 1]. x$_{1}$ = 6 − Δ / 2 and x$_{3}$ = 6 + Δ / 2 for Δ > 0 and analogously for Δ < 0. RPM (dashed) and ASC (solid) means are over all ϵ values. Shifts for individual ϵ values shown as gray curves for ASC model. Dotted curve shows ϵ = 0 ASC baseline case where x$_{2}$ = 6 is exactly in middle. Gap in the curves is the region where x$_{2}$ would go beyond x$_{1}$ or x$_{3}$ . ASC model parameters: λ$_{1}$$_{ }$$_{2}$$_{ }$$_{3}$ (0) = 0 . 05 λ$_{min}$ = 0 . 025 . 32 -10 -5 0 5 10 policy disagreement -3 -2 -1 0 1 2 3 polarization shift Proper Complete a ASC mean ASC baseline RPM mean -10 -5 0 5 10 policy disagreement -3 -2 -1 0 1 2 3 polarization shift Proper Chain b -10 -5 0 5 10 policy disagreement -3 -2 -1 0 1 2 3 polarization shift Improper Complete c -10 -5 0 5 10 policy disagreement -3 -2 -1 0 1 2 3 polarization shift Improper Chain d | scientific_articles |
Ref. Ares(2021)2862196 - 29/04/2021 Construction of Giresun Wastewater Treatment Plant Tender Dossier Volume 5 Drawings & Design Documents 1 of 3 Vol5_d4y_designdrawing_en_GIR_rev6.doc VOLUME 5 DESIGN DOCUMENTS INCLUDING DRAWINGS | government_tenders |
MongoDB Documentation Release 3.0.4 To retrieve documents in reverse insertion order issue find() along with the sort() method with the $natural parameter set to -1 as shown in the following example: db.cappedCollection.find().sort( { $natural: -1 } ) Check if a Collection is Capped Use the isCapped() method to determine if a collection is capped as follows: db.collection.isCapped() Convert a Collection to Capped You can convert a non-capped collection to a capped collection with the convertToCapped command: db.runCommand({"convertToCapped": "mycoll" size: 100000}); The size parameter specifies the size of the capped collection in bytes. Warning: This command obtains a global write lock and will block other operations until it has completed. Changed in version 2.2: Before 2.2 capped collections did not have an index on _id unless you specified autoIndexId to the create after 2.2 this became the default. Automatically Remove Data After a Specified Period of Time For additional flexibility when expiring data con- sider MongoDB’s TTL indexes as described in Expire Data from Collections by Setting TTL (page 211). These indexes allow you to expire and remove data from normal collections using a special type based on the value of a date-typed field and a TTL value for the index. TTL Collections (page 211) are not compatible with capped collections. Tailable Cursor You can use a tailable cursor with capped collections. Similar to the Unix tail -f command the tailable cursor “tails” the end of a capped collection. As new documents are inserted into the capped collection you can use the tailable cursor to continue retrieving documents. See Create Tailable Cursor (page 123) for information on creating a tailable cursor. New in version 2.2. This document provides an introduction to MongoDB’s “ time to live ” or TTL collection feature. TTL collections make it possible to store data in MongoDB and have the mongod automatically remove data after a specified number of seconds or at a specific clock time. Data expiration is useful for some classes of information including machine generated event data logs and session information that only need to persist for a limited period of time. A special TTL index property (page 503) supports the implementation of TTL collections. The TTL feature relies on a background thread in mongod that reads the date-typed values in the index and removes expired documents from the collection. Expire Data from Collections by Setting TTL 211 5.1. Administration Concepts | manuals |
Our analysis of the asymptotic power of tests for signal detection is based on a study of the asymptotic properties of the likelihood ratio processes { L ( h ; λ ) ; h ∈ ( R $^{+}$) $^{r}$} and { L ( h ; µ ) ; h ∈ ( R $^{+}$) $^{r}$} . First we will focus on the key terms in the expres- sions (4) and (5) which are the integrals over the unitary group. These in- tegrals are special cases of the complex hypergeometric function $_{0}$F (1) 0 ( A B ) = ∫ U ( p $_{)}$e tr ( AGBG − 1 ) (d G ) where A and possibly B are rank-deficient. In the next section we derive a formula for $_{0}$F ( α ) 0 ( A B ) with rank-deficient A and B that links this function to a hypergeometric functions of full-rank matrix arguments of lower dimensions. We do not restrict attention to the case α = 1 because as discussed in the introduction other cases constitute independent interest. Let us first provide a necessary background on hypergeometric functions. Let A and B be Hermitian p × p matrices over real complex or quaternion division algebra. The eigenvalues of such matrices are real and we will denote them as a = ( a$_{1}$ ... a$_{p}$ ) and b = ( b$_{1}$ ... b$_{p}$ ). The hypergeometric function $_{0}$F ( α ) 0 ( A B ) is defined as (see for example Koev and Edelman 2006) where C ( α ) κ ( A ) = C ( α ) κ ( a ) C ( α ) κ ( B ) = C ( α ) κ ( b ) and C ( α ) κ ( I$_{p}$ ) = C ( α ) κ (1 ... 1) are normalized Jack polynomials (Macdonald 1995 chapter VI § 10) and the inner sum runs over all partitions κ of k that is over all non-increasing sequences of non- negative integers κ = ( κ$_{1}$ κ$_{2}$ ... ) such that κ$_{1}$ + κ$_{2}$ + ... = k. The normalization of 9 $_{0}$F ( α ) 0 ( A B ) = ∞ ∑ k =0 ∑ κ ⊢ k 1 k ! C ( α ) κ ( A ) C ( α ) κ ( B ) C ( α ) κ ( I$_{p}$ ) (6) 3 Contour integral representation for $_{0}$F ( α ) 0 ( A B ) | scientific_articles |
release numbers 96 RELEASE SAVEPOINT 2724 releases DMR 96 GA 96 naming scheme 96 RC 96 RELEASE_ALL_LOCKS() 2279 RELEASE_LOCK() 2279 relevance 6181 reload option ndb_mgmd 4266 RELOAD privilege 1192 remap-column option ndb_restore 4388 remote administration (NDB Cluster) and security issues 4605 remove option mysqld 750 MySQLInstallerConsole 142 ndbd 4246 ndbmtd 4246 ndb_mgmd 4266 removed features 42 --bootstrap 46 --des-key-file 45 --fix-db-names 46 --fix-table-names 46 --ignore-db-dir 44 --log-warnings 44 --partition 46 --secure-auth 44 --skip-partition 46 --ssl 46 --ssl-verify-server-cert 46 --temp-pool 46 ALTER DATABASE 46 ALTER TABLE ... UPGRADE PARTITIONING 50 Area() 45 AsBinary() 45 AsText() 45 AsWKB() 45 AsWKT() 45 Buffer() 45 Centroid() 45 Com_alter_db_upgrade 46 Contains() 45 ConvexHull() 45 Crosses() 45 datetime_format 44 date_format 44 DB2 45 DECODE() 45 DES_DECRYPT() 45 5524 | manuals |
specific terms and conditions. The submitted tender is binding on the tenderer to whom the contract is awarded for the duration of the contract. Contacts between the contracting authority and tenderers are prohibited throughout the procedure save in exceptional circumstances and under the following conditions only: Upon request the contracting authority may provide additional information solely for the purpose of clarifying the procurement documents. Any request for additional information must be made in writing only through the above TED eTendering website in the "Questions & answers" tab by clicking "Create a question" (registration on TED eTendering is required to be able to create and submit a question). The contracting authority is not bound to reply to requests for additional information received less than six working 7 days before the time-limit for receipt of tenders. Please note the Question and Answer deadlines at the TED e-tendering link above. The contracting authority may on its own initiative inform interested parties of any error inaccuracy omission or any other type of clerical error in the text of the procurement documents. Any additional information will be published on the above TED eTendering website. The website will be updated regularly and it is the economic operator's responsibility to check for updates and modifications during the submission period$^{1}$. Tenders will be opened electronically on the date and time indicated under Heading IV.2.7 of the contract notice. Tenderers may attend the opening session remotely via the Skype for Business application (maximum two representatives per tender). For organisational and security reasons the tenderer must send to [email protected] at least twenty-four hours before the scheduled start of the opening session the full name and e-mail address of the representative(s) together with the submission receipt generated by eSubmission. The participants will receive instructions how to participate in the opening and an invitation at least two hours before the scheduled start of the opening session. The instructions and the invitation will be sent to each representative’s email address provided as requested above. The public part of the opening session will be strictly limited to the following aspects: - verification that each tender has been submitted in accordance with the submission requirements of the call for tenders; $^{7}$ Working days at the contracting authority's location indicated under Heading I.1 of the contract notice. 3 3.2 Opening of tenders 3.1 Submission phase (before the time-limit for receipt of tenders) 3. Contacts during the procurement procedure. | government_tenders |
CODE OF CONDUCT SECTION XVII - CODE OF CONDUCT whether or not a hearing was requested. The decision of the Committee or Board of Directors shall be final and non-appealable. Notwithstanding Section XVII.G.3.e above after the Committee or Board of Directors renders a decision on a Player’s or Tournament Support Personnel’s violation of this Code the WTA applicable Player or applicable Tournament Support Personnel may submit a request to the WTA for the Committee or Board of Directors as applicable to grant a new hearing (“New Hearing”) of such violation because of the discovery of information that: (i) was not known to the WTA or applicable Player or Tournament Support Personnel at the time of the Committee’s or Board of Directors’ original hearing on his or her violation; and (ii) is capable of causing the Committee or Board of Directors as applicable to render a different decision on the violation (“New Information”). Such request must be submitted to the WTA no later than ninety (90) days after notice of the Committee’s or Board of Directors’ original decision unless the Committee or Board of Directors otherwise agrees. The Committee or Board of Directors as applicable has no obligation to grant a New Hearing and has sole absolute discretion in determining whether a New Hearing request contains any New Information and whether to grant a New Hearing on a violation. The decision regarding a New Hearing by the Committee or Board of Directors as applicable is final and non-appealable. If the Committee or Board of Directors as applicable grants a New Hearing the provisions of Sections XVII.G.3.c and e will apply to that hearing. Any fine imposed must be paid to the WTA within thirty (30) days of the final imposition unless written extension of time is granted by the WTA. All unpaid fines at the end of the year will be subject to a penalty of 15% interest on the outstanding balance. Filing of an appeal will not prevent the WTA from deducting fines from player prize money or any payments due from the WTA to Tournaments nor shall it delay the due date of any fine invoice. g. Payment of Fines f. Request for New Hearing H. PROCEDURES FOR PLAYER SUPPORT TEAM MEMBERS AND CREDENTIALED PERSONS 1. Player Support Team Player Support Team members are expected to conduct themselves in a professional manner at all times. In this regard a Code of Conduct has been 297 | manuals |
Indirection layer The FlashCopy indirection layer governs the I/O to the source and target volumes when a FlashCopy mapping is started. This process is done by using a FlashCopy bitmap. The purpose of the FlashCopy indirection layer is to enable both the source and target volumes for read and write I/O immediately after FlashCopy starts. The following description illustrates how the FlashCopy indirection layer works when a FlashCopy mapping is prepared and then started. When a FlashCopy mapping is prepared and started the following sequence is applied: FlashCopy provides the semantics of a point-in-time copy that uses the indirection layer which intercepts I/O that is directed at either the source or target volumes. The act of starting a FlashCopy mapping causes this indirection layer to become active in the I/O path which occurs automatically across all FlashCopy mappings in the Consistency Group. The indirection layer then determines how each of the I/O is to be routed based on the following factors: The indirection layer allows the I/O to go through the underlying volume. It redirects the I/O from the target volume to the source volume or queues the I/O while it arranges for data to be copied from the source volume to the target volume. The process of queueing the write operations on the source volume while the indirection layer completes the grain copy on the target volume is called copy-on-write . Table 6-2 summarizes the indirection layer algorithm. 1. Flush the write cache to the source volume or volumes that are part of a Consistency Group. 2. Put the cache into write-through mode on the source volumes. 3. Discard the cache for the target volumes. 4. Establish a sync point on all of the source volumes in the Consistency Group (creating the FlashCopy bitmap). 5. Ensure that the indirection layer governs all of the I/O to the source volumes and target. 6. Enable the cache on source volumes and target volumes. GLYPH<SM590000> The volume and the logical block address (LBA) to which the I/O is addressed GLYPH<SM590000> Its direction (read or write) GLYPH<SM590000> The state of an internal data structure the FlashCopy bitmap Table 6-2 Summary table of the FlashCopy indirection layer algorithm Volume being accessed Has the grain been copied? Host I/O operation Read Write Source No Read from the source volume. Copy grain to the most recently started target for this source then write to the source. Yes Read from the source volume. Write to the source volume. 152 IBM FlashSystem 9200 and 9100 Best Practices and Performance Guidelines | manuals |
6 Now we use this definition to draw the TFL patterns based on kno wn interaction structure and oscillation data. Figures. 3(b) and 3(c) show TFL structures corresponding to the oscillation patterns of Figs. 2(c) and 2(d) respectively. From the TFL patterns all the above questions can be understood without any ambiguity. First we have revealed in Fig. 3(b) and Fig. 3(c) the wave sources – 1D source loops (linked by the pink nodes) from the large number of possible candidates of topological loops in Fig. 2(a). In the source loops all red bold arrowed lines show L-RCs ( A ′ 1 −→ B$_{1}$ B ′ 1 −→ A$_{1}$ in Fig. 3(b); A ′ 2 −→ B$_{2}$ B ′ 2 −→ C$_{2}$ C ′ 2 −→ A$_{2}$ in Fig. 3(c)) and all other arrowed lines come from local chains. In Figs. 2(c) and 2(d) all the local chains in the source loops are shown by bold lines and the source centers in each pattern are identified by red disks such as: double centers ( A$_{1}$ B$_{1}$ ) with the source loop A$_{1}$ bold line − − − → A ′ 1 L − RC − → B$_{1}$ bold line − − − → B ′ 1 L − RC − → A$_{1}$ for Fig. 2(c); and triple centers ( A$_{2}$ B$_{2}$ C$_{2}$ ) with the source loop A$_{2}$ bold line − − − → A ′ 2 L − RC − → B$_{2}$ bold line − − − → B ′ 2 L − RC − → C$_{2}$ bold line − − − → C ′ 2 L − RC − → A$_{2}$ for Fig. 2(d). Via TFL patterns of Figs. 3(b) and 3(c) we can not only understand the problem which target centers are the true centers of the oscillations (red square nodes) but also understand how waves propagate from the source centers to all the sub-target centers ( S TCs shown by blue square nodes) and then produce groups of target waves successively in the patterns. Taking the sub-target center S TC$_{6}$ in Fig. 2(c) as an example we realize from the TFL pattern of Fig. 3(b) that waves start from the source target center A$_{1}$ and propagate through the path A$_{1}$ −→ S TC$_{4}$ −→ S TC$_{6}$ . All these sub-target centers take their fixed positions in t he TFL structures and the problems how these centers are driven by upstream nodes (through L-RCs) and how they drive their downstream nodes (through various sub-target waves supported by local couplings) are illustrated clearly. The most interesting point is that we can perform pattern control and regulation based on the TFL pat- terns. Our task is to e ff ectively suppress oscillations. By $^{′′}$e ff ective ′′ we mean to change as small as possible number of couplings. If TFL patterns in Fig. 3 make sense we expect that removing a single L-RC on the source loop can suppress the given target waves in the whole pattern. In Fig. 4(a) we plot < u ( t ) > = 1 N 2 ∑ N = 100 i j = 1 u$_{i}$$_{ }$$_{j}$ ( t ) and < v ( t ) > = 1 N 2 ∑ N = 100 i j = 1 v$_{i}$$_{ }$$_{j}$ ( t ) vs t and show that < u ( t ) > and < v ( t ) > damps to zero after a single L-RC B $^{′}$$_{1}$A$_{1}$ of Fig. 2(c) is discarded. A snapshot of pattern evolution after discarding B $^{′}$$_{1}$A$_{1}$ is presented in Fig. 4(b) where the system is approaching to the homogeneous rest state. The damping process after discarding L-RC B $^{′}$$_{1}$A$_{1}$ can be well explained based on the TFL pattern of Fig. 3(b). When we remove B $^{′}$$_{1}$A$_{1}$ the source loop A$_{1}$ −→ A ′ 1 −→ B$_{1}$ −→ B ′ 1 −→ A$_{1}$ breaks and thus the source centers A$_{1}$ B$_{1}$ no longer emit waves and the target waves from centers A$_{1}$ B$_{1}$ first damp. Without excitations from IV. CONTROL OF SELF-SUSTAINED OSCILLATIONS IN EXCITABLE COMPLEX NETWORKS | scientific_articles |
NOTES TO THE CONSOLIDATED FINANCIAL STATEMENTS (RMB AND US$ AMOUNTS EXPRESSED IN THOUSANDS EXCEPT PER SHARE DATA) 13. Goodwill (cont’d) Sensitivity to changes in assumptions (cont’d) 14. Intangible assets 15. Other financial liabilities (a) Other liabilities China Yuchai International Limited | Annual Report 2013 92 31.12.2012 31.12.2013 31.12.2013 Rmb’000 Rmb’000 US$’000 Derivatives not designated as hedges - foreign exchange forward contract 9 467 — — Finance lease liabilities (Note 29) — 56 9 31.12.2012 31.12.2013 31.12.2013 Rmb’000 Rmb’000 US$’000 Current 9 467 13 2 Non-current — 43 7 Total 9 467 56 9 Development costs Rmb’000 Cost At January 1 2012 24 754 Additions – Internally developed 20 657 Additions – Acquired separately 90 000 At December 31 2012 and January 1 2013 135 411 Additions – Internally developed 9 872 At December 31 2013 145 283 US$’000 23 739 Growth rate assumptions – Management recognizes that the speed of technological change and the possibility of new entrants can have a significant impact on growth rate assumptions. A reduction to 2.95% in the long-term growth rate in Yuchai unit would result in impairment. With regard to the assessment of value in use of the Yuchai unit management believes that no reasonably possible change in any of the above key assumptions would cause the recoverable amount to materially fall below the carrying value of the unit. The development costs are related to intellectual property right technical skill and knowledge of building a new technology of heavy duty diesel engines. | financial_reports |
(2) JP 2017-66261 A 2017.4.6 【特許請求の範囲】 有機極性溶媒中、硫⻩源とジハロゲン化芳⾹族化合物とを反応させてポリアリーレンスル フィドを製造する際に、反応系内の硫⻩原⼦1モルに対し、下記⼀般式(A)で表される 反応性官能基Wを有するモノハロゲン化化合物を、0.1モルを越え0.4モル以下、か つアルカリ⾦属⽔酸化物を、1.2モルを超え2.0モル以下の範囲内で反応させること を特徴とするポリアリーレンスルフィドの製造⽅法。 【化1】 (式(A)中、Vはハロゲンを⽰し、Wはカルボキシル基、ヒドロキシル基、酸無⽔物基 、イソシアネート基、エポキシ基、アミノ基、アミド基、アセトアミド基、スルホン酸基 、スルホンアミド基、シラノール基、アルコキシシラン基、アルデヒド基、アセチル基、 またはそれらの誘導体から選ばれる官能基⽰す。) 前記反応性官能基Wを有するモノハロゲン化化合物を、反応系内の硫⻩原⼦1モルに対 し、0.2モルを越え0.35モル以下の範囲内で反応させることを特徴とする請求項1 記載のポリアリーレンスルフィドの製造⽅法。 ⼀般式(B)で表される構造を有し、官能基含有量が500μmol/g以上であって、 かつ融点が270℃以上であることを特徴とするポリアリーレンスルフィド。 (ここで、⼀般式(B)におけるWは、カルボキシル基、ヒドロキシル基、酸無⽔物基、 イソシアネート基、エポキシ基、アミノ基、アミド基、アセトアミド基、スルホン酸基、 スルホンアミド基、シラノール基、アルコキシシラン基、アルデヒド基、アセチル基、ま たはそれらの誘導体から選ばれる官能基であり、mは5以上の整数を表す。) 下記で定義される末端官能基率が85%以上であることを特徴とする請求項3記載のポリ アリーレンスルフィド。 末端官能基率(%)=(官能基含有量(mol/g)/(1/数平均分⼦量(g/mol )×2))×100(%) 塩素含有量が3500ppm以下であることを特徴とする請求項3〜4のいずれかに記載 のポリアリーレンスルフィド。 塩素含有量が1000ppm以下であることを特徴とする請求項5に記載のポリアリーレ ンスルフィド。 【請求項7】 重量平均分⼦量/数平均分⼦量で表される分散度(Mw/Mn)が2.5以下であること を特徴とする請求項3〜6のいずれかに記載のポリアリーレンスルフィド。 クロロホルム抽出成分が1重量%以上であることを特徴とする請求項3〜7のいずれかに 【請求項8】 【請求項6】 【請求項5】 【請求項4】 【化2】 【請求項3】 【請求項2】 【請求項1】 (A) Ks) | patents |
4050 Overview of NDB Cluster Configuration Parameters Options and Variables • ndb_log_empty_epochs : When enabled epochs in which there were no changes are written to ndb_apply_status and ndb_binlog_index tables even when log_slave_updates is enabled. • ndb_log_empty_update : When enabled updates which produce no changes are written to ndb_apply_status and ndb_binlog_index tables even when log_slave_updates is enabled. • ndb_log_exclusive_reads : Log primary key reads with exclusive locks; allow conflict resolution based on read conflicts. • ndb_log_orig : Whether id and epoch of originating server are recorded in mysql.ndb_binlog_index table. Set using --ndb-log-orig option when starting mysqld. • ndb_log_transaction_id : Whether NDB transaction IDs are written into binary log (Read-only). • ndb-log-updated-only : Log complete rows (ON) or updates only (OFF). • ndb-log-update-minimal : Log updates in minimal format. • ndb_metadata_check : Enable auto-detection of NDB metadata changes with respect to MySQL data dictionary; enabled by default. • Ndb_metadata_blacklist_size : Number of NDB metadata objects that NDB binlog thread has failed to synchronize; renamed in NDB 8.0.22 as Ndb_metadata_excluded_count. • ndb_metadata_check_interval : Interval in seconds to perform check for NDB metadata changes with respect to MySQL data dictionary. • Ndb_metadata_detected_count : Number of times NDB metadata change monitor thread has detected changes. • Ndb_metadata_excluded_count : Number of NDB metadata objects that NDB binlog thread has failed to synchronize. • ndb_metadata_sync : Triggers immediate synchronization of all changes between NDB dictionary and MySQL data dictionary; causes ndb_metadata_check and ndb_metadata_check_interval values to be ignored. Resets to false when synchronization is complete. • Ndb_metadata_synced_count : Number of NDB metadata objects which have been synchronized. • Ndb_number_of_data_nodes : Number of data nodes in this NDB cluster; set only if server participates in cluster. • ndb-optimization-delay : Number of milliseconds to wait between processing sets of rows by OPTIMIZE TABLE on NDB tables. • ndb_optimized_node_selection : Determines how SQL node chooses cluster data node to use as transaction coordinator. • Ndb_pruned_scan_count : Number of scans executed by NDB since cluster was last started where partition pruning could be used. • Ndb_pushed_queries_defined : Number of joins that API nodes have attempted to push down to data nodes. • Ndb_pushed_queries_dropped : Number of joins that API nodes have tried to push down but failed. • Ndb_pushed_queries_executed : Number of joins successfully pushed down and executed on data nodes. • Ndb_pushed_reads : Number of reads executed on data nodes by pushed-down joins. | manuals |
THE COMMITTEE’S RESPONSIBILITIES ATTENDANCE AT COMMITTEE MEETINGS AND ADVISERS REMUNERATION POLICY Long-term incentive arrangements Fixed salary COMMITTEE MEMBERS 1 Annual bonus 44 Management review REMUNERATION REPORT Carlsberg Group Annual Report 2013 • Share options which vest after three years subject to continued employment. • Performance shares which vest over three years subject to the performance condition. Carlsberg’s Remuneration Committee was established by the Supervisory Board in late 2010. The CEO Deputy CEO Senior Vice Presi- dent HR and Vice President Compensa- tion & Benefits are invited to attend meetings of the Committee where ap- propriate but are not present when their own remuneration is discussed directly. In 2013 the Remuneration Committee held four meetings. At three meetings all the members participated while at one meeting one member was absent. The Committee is responsible for the Remuneration Policy (including the general guidelines for incentive programmes) for all members of the Supervisory Board and the Executive Board for recommending proposals on changes to the Remuneration Policy and for obtaining the approval of the Supervisory Board prior to seeking shareholders’ approval at the Annual General Meeting. The Committee is responsible for making proposals to the Supervisory Board on the actual structure and content of the remuneration pack- ages (in accordance with the policy approved by the shareholders) of the members of the Supervisory Board and the Executive Board. The Committee monitors and advises the Supervisory Board on any major changes to the policy on senior em- ployee remuneration structures for the Group including for the Executive Com- mittee. The Committee’s Terms of Refer- ence which govern how it operates are approved by the Supervisory Board and are available on the Company’s website. New Bridge Street an Aon Hewitt company is the Committee’s external adviser. No other services are provided to the Group by Aon Hewitt and the Committee is satisfied as to the inde- pendence of its advisers. Richard Burrows (Chairman) Jess Søderberg Flemming Besenbacher Kees van der Graaf Elisabeth Fleuriot 1 Richard Burrows Jess Søderberg Kees van der Graaf and Elisabeth Fleuriot are independent of the Company as defined in the recommen- dations of the Danish Committee on Corporate Governance. The measures used in the scorecard for the 2014 annual bonus are operating profit free cash flow net profit and growth in market share; these are the same measures that were applied for 2013. The determination of the final bonus is sub- ject to the discretion of the Committee and the Supervisory Board taking into account the overall performance of the business. For 2014 the potential maximum bonus will remain at 100% of fixed salary with 60% of fixed salary payable for on-target perform- ance. A scorecard of performance measures is used to assess performance. The annual bonus is structured to incentiv- ise the executive directors to deliver on the Group’s short-term strategic objectives. Each year the Committee determines the total level of long-term incentive award to be made to each executive director and how much of that award will be made using per- formance shares and how much using share options. All long-term incentive awards are made at the discretion of the Committee. This level was increased in 2013 (100% prior to 2013) and whilst the Committee has not granted at this level to date and does not intend to grant at the maximum level in the near future it wishes to have the flexibility to do so if it deems higher awards to be appropriate in future years. The Committee also takes into account levels of remuneration for similar roles at comparable companies in both the drinks and fast moving consumer goods sectors as well as companies across industry sectors based in the Nordic region. The Committee reviews fixed salaries an- nually taking into account a number of relevant factors including the individual’s performance role and responsibilities. The main elements of the executive directors’ remuneration arrangements are summarised in the table below and are explained in more detail in the sub- sequent paragraphs. Award levels and types of award The long-term incentive arrangements for the executive directors currently comprise two types of award: The maximum combined value of awards that can be made in any one financial year is 200% of fixed salary (calculated in accord- ance with International Financial Reporting Standards (IFRS) at the date of grant). | financial_reports |
(continued from previous page) >>> handler.setFormatter(df) >>> logger.debug( 'This is a DEBUG message ') 2010-10-28 15:13:06 924 foo.bar DEBUG This is a DEBUG message >>> logger.critical( 'This is a CRITICAL message ') 2010-10-28 15:13:11 494 foo.bar CRITICAL This is a CRITICAL message >>> >>> logger.error('This is an %s%s%s ' 'other ' 'ERROR ' 'message') 2010-10-28 15:19:29 833 foo.bar ERROR This is another ERROR >>> classBraceMessage : def __init__ (self fmt / *args **kwargs): self.fmt =fmt self.args =args self.kwargs =kwargs def __str__ (self): return self.fmt.format( *self.args **self.kwargs) classDollarMessage : def __init__ (self fmt / **kwargs): self.fmt =fmt self.kwargs =kwargs def __str__ (self): from string import Template return Template( self.fmt) .substitute( **self.kwargs) >>> from wherever import BraceMessage as __ >>> print(__( 'Message with {0} {name} ' 2 name ='placeholders')) Message with 2 placeholders >>> classPoint : pass ... >>> p =Point() (continues on next page) 19 Either of these can be used in place of a format string to allow {}- or $-formatting to be used to build the actual “message” part which appears in the formatted log output in place of “%(message)s” or “{message}” or “$message”. It’s a little unwieldy to use the class names whenever you want to log something but it’s quite palatable if you use an alias such as __ (double underscore — not to be confused with _ the single underscore used as a synonym/alias for gettext.gettext() or its brethren). The above classes are not included in Python though they’re easy enough to copy and paste into your own code. They can be used as follows (assuming that they’re declared in a module called$_{wherever}$): There is however a way that you can use {}- and $- formatting to construct your individual log messages. Recall that for a message you can use an arbitrary object as a message format string and that the logging package will call str() on that object to get the actual format string. Consider the following two classes: Logging calls ( logger.debug() logger.info() etc.) only take positional parameters for the actual logging message itself with keyword parameters used only for determining options for how to handle the actual logging call (e.g. the$_{exc_info}$keyword parameter to indicate that traceback information should be logged or the$_{extra}$ keyword parameter to indicate additional contextual information to be added to the log). So you cannot directly make logging calls using str.format() or string.Template syntax because internally the logging package uses %-formatting to merge the format string and the variable arguments. There would be no changing this while preserving backward compatibility since all logging calls which are out there in existing code will be using %-format strings. Note that the formatting of logging messages for final output to logs is completely independent of how an individual logging message is constructed. That can still use %-formatting as shown here: | manuals |
US 9 097 971 B2 196 195 Preferable examples of the oxime sulfonate-based acid generator include compounds represented by general formula (B-2) or (B-3) shown below. [Chemical Formula 98] (B-2) (B-3) In the formula (B-2) R$^{33 }$represents a cyano group an alkyl group having no substituent or a halogenated alkyl group; R 34 represents an aryl group; and R$^{35 }$represents an alkyl group having no substituent or a halogenated alkyl group. In general formula (B-3) as the alkyl group having no substituent and the halogenated alkyl group for R 36 the same alkyl group having no substituent and the halogenated alkyl group described above for R$^{33 }$can be used. [Chemical Formula 99] In the formula (B-3) R$^{36 }$represents a cyano group an alkyl group having no substituent or a halogenated alkyl group; R 37 represents a divalent or trivalent aromatic hydrocarbon group; R$^{38 }$represents an alkyl group having no substituent or a halogenated alkyl group; and p" represents 2 or 3. In general formula (B-2) the alkyl group having no sub› stituent or the halogenated alkyl group for R$^{33 }$preferably has 1 to 10 carbon atoms more preferably 1 to 8 carbon atoms and most preferably 1 to 6 carbon atoms. As R 33 a halogenated alkyl group is preferable and a fluorinated alkyl group is more preferable. The fluorinated alkyl group for R$^{33 }$preferably has 50% or more of the hydrogen atoms thereof fluorinated more pref› erably 70% or more and most preferably 90% or more. Examples of the aryl group for R$^{34 }$include groups in which one hydrogen atom has been removed from an aromatic hydrocarbon ring such as a phenyl group a biphenyl group a fluorenyl group a naphthyl group an anthryl group and a phenantryl group andheteroaryl groups in which some of the carbon atoms constituting the ring(s) of these groups are substituted with hetero atoms such as an oxygen atom a sulfur atom and a nitrogen atom. Of these a fluorenyl group is preferable. The aryl group for R$^{34 }$may have a substituent such as an alkyl group of 1 to 10 carbon atoms a halogenated alkyl group or an alkoxy group. The alkyl group and halogenated alkyl group as the substituent preferably has 1 to 8 carbon atoms and more preferably 1 to 4 carbon atoms. Further the halogenated alkyl group is preferably a fluorinated alkyl group. The alkyl group having no substituent or the halogenated alkyl group for R$^{35 }$preferably has 1 to 10 carbon atoms more preferably 1 to 8 carbon atoms and most preferably 1 to 6 carbon atoms. As R 35 a halogenated alkyl group is preferable and a fluorinated alkyl group is more preferable. In terms of enhancing the strength of the acid generated the fluorinated alkyl group for R$^{35 }$preferably has 50% or more of the hydrogen atoms fluorinated more preferably 70% or more still more preferably 90% or more. A com› pletely fluorinated alkyl group in which 100% of the hydro› gen atoms are substituted with fluorine atoms is particularly desirable. Furthermore as preferable examples the following can be used. Further oxime sulfonate-based acid generators disclosed in Japanese Unexamined Patent Application First Publica› tion No. Hei 9-208554 (Chemical Formulas 18 and 19 shown in paragraphs [0012] to [0014]) and oxime sulfonate-based acid generators disclosed in WO 2004/074242A2 (Examples 1 to 40 described at pages 65 to 86) may be preferably used. p" is preferably 2. Specific examples of suitable oxime sulfonate-based acid generators include a-(p-toluenesulfonyloxyimino )-benzyl cyanide a-(p-chlorobenzenesulfonyloxyimino )-benzyl cya› nide a-( 4-nitrobenzenesulfonyloxyimino )-benzyl cyanide a-( 4-nitro-2-trifluoromethy lbenzenesulfony loxyimino )- benzyl cyanide a-(benzenesulfonyloxyimino )-4-chloroben› zyl cyanide a-(benzenesulfonyloxyimino )-2 4-dichloroben› zyl cyanide a-(benzenesulfonyloxyimino )-2 6- dichlorobenzyl cyanide a-(benzenesulfonyloxyimino )-4- methoxybenzyl cyanide a-(2- chloro benzenesulfony loxyimino )-4-methoxybenzy 1 cyanide a-(benzenesulfonyloxyimino )-thien-2-yl acetoni› trile a-( 4-dodecylbenzenesulfonyloxyimino )benzyl cya› nide a-[ (p-toluenesulfony loxyimino )-4-methoxypheny l] ac- etonitrile a-[ ( dodecylbenzenesulfonyloxyimino )-4- methoxypheny l] acetonitrile a-( tosy loxyimino )-4-thieny 1 cyanide a-(methylsulfonyloxyimino )-1-cyclopentenyl acetonitrile a-( methy lsulfony loxyimino )-1-cyclohexeny 1 acetonitrile a-(methylsulfonyloxyimino )-1-cycloheptenyl acetonitrile a-(methylsulfonyloxyimino )-1-cyclooctenyl acetonitrile a-(trifluoromethylsulfonyloxyimino )-1-cyclo› pentenyl acetonitrile a-(trifluoromethylsulfonyloxyimino )› cyclohexyl acetonitrile a-( ethylsulfonyloxyimino )-ethyl acetonitrile a-(propyl sulfonyloxyimino)-propyl acetoni› trile a-( cyclohexylsulfonyloxyimino )-cyclopentyl acetoni- trile a-( cyclohexylsulfonyloxyimino )-cyclohexyl acetoni› trile a-( cyclohexylsulfonyloxyimino )-1-cyclopentenyl acetonitrile a-( ethylsulfonyloxyimino )-1-cyclopentenyl acetonitrile a-(isopropylsulfonyloxyimino )-1-cyclopente› nyl acetonitrile a-(n-butylsulfonyloxyimino )-1-cyclopente- nyl acetonitrile a-( ethylsulfonyloxyimino )-1-cyclohexenyl acetonitrile a-(isopropylsulfonyloxyimino )-1-cyclohexenyl acetonitrile a-( n-buty lsulfony loxyimino )-1-cyclohexeny 1 acetonitrile a-(methylsulfonyloxyimino )-phenyl acetoni- trile a-(methylsulfonyloxyimino )-p-methoxyphenyl aceto› nitrile a-(trifluoromethylsulfonyloxyimino )-phenyl acetoni- trile a-(trifluoromethylsulfonyloxyimino )-p- methoxyphenyl acetonitrile a-( ethylsulfonyloxyimino )-p› methoxyphenyl acetonitrile a-(propylsulfonyloxyimino )-p› methylphenyl acetonitrile and a-(methyl sulfonyl oxyimino )-p-bromophenyl acetonitrile. Examples of the divalent or trivalent aromatic hydrocarbon group for R$^{37 }$include groups in which one or two hydrogen atoms have been removed from the aryl group for R 34 . As the alkyl group having no substituent or the halogenated alkyl group for R 38 the same one as the alkyl group having no substituent or the halogenated alkyl group for R 35 can be used. | patents |
importing or selling specified products are located within an area under the jurisdiction of only one Regional Bureau of Economy Trade and Industry is to be exercised by the Director-General of the Regional Bureau of Economy Trade and Industry having jurisdiction over the location of the offices workplaces stores or warehouses. (3) The authority of the Minister of Economy Trade and Industry pursuant to the provisions of Article 6 Article 7 paragraph (2) Articles 8 through 10 and Article 11 paragraph (1) item (i) of the Act concerning notifying enterprises whose factories or workplaces pertaining to the business of manufacturing specified products that belong to one classification of notification (meaning the classification of specified products specified by the order of the competent ministry as provided for in Article 6 of the Act; the same applies in the following paragraph) are located within an area under the jurisdiction of only one Regional Bureau of Economy Trade and Industry is to be exercised by the Director-General of the Regional Bureau of Economy Trade and Industry having jurisdiction over the location of the factories and workplaces. (4) The authority of the Minister of Economy Trade and Industry pursuant to the provisions of Article 6 Article 7 paragraph (2) Articles 8 through 10 and Article 11 paragraph (1) item (i) of the Act concerning notifying enterprises whose offices workplaces stores or warehouses pertaining to the business of importing specified products that belong to one classification of notification are located within an area under the jurisdiction of only one Regional Bureau of Economy Trade and Industry is to be exercised by the Director-General of the Regional Bureau of Economy Trade and Industry having jurisdiction over the location of the offices workplaces stores or warehouses. (5) The authority of the Minister of Economy Trade and Industry pursuant to the provisions of Articles 14 and 15 of the Act is to be exercised by the Director of the Regional Bureau of Economy Trade and Industry having jurisdiction over the location of offices factories workplaces stores or warehouses of the notifying enterprise; provided however that this does not preclude the Minister of Economy Trade and Industry from personally exercising the authority. (6) The authority of the Minister of Economy Trade and Industry pursuant to the provisions of Article 32-2 of the Act is to be exercised by the Director of the Regional Bureau of Economy Trade and Industry having jurisdiction over the location of the head office or principal office of the specified manufacturer etc. (7) The authority of the Minister of Economy Trade and Industry pursuant to the provisions of Articles 32-16 and 32-20 of the Act is to be exercised by the Director of the Regional Bureau of Economy Trade and Industry having jurisdiction over the location of the head office or principal office of the specified manufacturer etc.; provided however that this does not preclude the 8 | laws_and_regulations |
ii | laws_and_regulations |