Scope Sequence final

艺术品顾问合同 (中英文)During Phase I Art Concept and Development。

the Clientand designer will establish a clear scope of art needs。

specifying the type。

quality。

and overall n of the art to be designed。

The Client and designer will provide a le of progress and project milestones to allow the Art Consultant to keep up-to-date.3.费用Payment3.1甲方将支付乙方艺术品顾问服务费用。

费用包括但不限于艺术品采购、运输、安装和保险。

甲方将在项目完成后的30天内支付全部费用。

The Client shall pay the Art Consultant's service fee。

which includes but is not limited to art procurement。

n。

n。

and insurance。

The Client shall pay the full fee within 30 days after project n.4.保密条款Confidentiality4.1甲方同意保守乙方所提供的一切信息，包括但不限于商业机密、艺术品采购渠道、价格、合同、以及设计方案等。

The Client agrees to keep all n provided by the Art Consultantconfidential。

including but not limited to business secrets。

art procurement channels。

prices。

contracts。

解决启⽤Spring-Cloud-OpenFeign配置可刷新项⽬⽆法启动的问题本篇⽂章涉及底层设计以及原理，以及问题定位，⽐较深⼊，篇幅较长，所以拆分成上下两篇：上：问题简单描述以及 Spring Cloud RefreshScope 的原理下：当前 spring-cloud-openfeign + spring-cloud-sleuth 带来的 bug 以及如何修复最近在项⽬中想实现 OpenFeign 的配置可以动态刷新（主要是 Feign 的 Options 配置），例如：feign:client:config:default:# 链接超时connectTimeout: 500# 读取超时readTimeout: 8000我们可能会观察到调⽤某个 FeignClient 的超时时间不合理，需要临时修改下，我们不想因为这种事情重启进程或者刷新整个 ApplicationContext，所以将这部分配置放⼊ spring-cloud-config 中并使⽤动态刷新的机制进⾏刷新。

官⽅提供了这个配置⽅法，参考：即在项⽬中增加配置：feign.client.refresh-enabled: true但是在我们的项⽬中，增加了这个配置后，启动失败，报找不到相关 Bean 的错误：Caused by: org.springframework.beans.factory.NoSuchBeanDefinitionException: No bean named 'feign.Request.Options-testService1Client'availableat org.springframework.beans.factory.support.DefaultListableBeanFactory.getBeanDefinition(DefaultListableBeanFactory.java:863)at org.springframework.beans.factory.support.AbstractBeanFactory.getMergedLocalBeanDefinition(AbstractBeanFactory.java:1344)at org.springframework.beans.factory.support.AbstractBeanFactory.doGetBean(AbstractBeanFactory.java:309)at org.springframework.beans.factory.support.AbstractBeanFactory.getBean(AbstractBeanFactory.java:213)at org.springframework.context.support.AbstractApplicationContext.getBean(AbstractApplicationContext.java:1160)at org.springframework.cloud.openfeign.FeignContext.getInstance(FeignContext.java:57)at org.springframework.cloud.openfeign.FeignClientFactoryBean.getOptionsByName(FeignClientFactoryBean.java:363)at org.springframework.cloud.openfeign.FeignClientFactoryBean.configureUsingConfiguration(FeignClientFactoryBean.java:195)at org.springframework.cloud.openfeign.FeignClientFactoryBean.configureFeign(FeignClientFactoryBean.java:158)at org.springframework.cloud.openfeign.FeignClientFactoryBean.feign(FeignClientFactoryBean.java:132)at org.springframework.cloud.openfeign.FeignClientFactoryBean.getTarget(FeignClientFactoryBean.java:382)at org.springframework.cloud.openfeign.FeignClientFactoryBean.getObject(FeignClientFactoryBean.java:371)at mbda$registerFeignClient$0(FeignClientsRegistrar.java:235)atorg.springframework.beans.factory.support.AbstractAutowireCapableBeanFactory.obtainFromSupplier(AbstractAutowireCapableBeanFactory.java:1231) atorg.springframework.beans.factory.support.AbstractAutowireCapableBeanFactory.createBeanInstance(AbstractAutowireCapableBeanFactory.java:1173) atorg.springframework.beans.factory.support.AbstractAutowireCapableBeanFactory.doCreateBean(AbstractAutowireCapableBeanFactory.java:564) at org.springframework.beans.factory.support.AbstractAutowireCapableBeanFactory.createBean(AbstractAutowireCapableBeanFactory.java:524) ... 74 more问题分析通过这个 Bean 名称，其实可以看出来这个 Bean 是我们开始提到要动态刷新的 Feign.Options，⾥⾯有连接超时、读取超时等配置。

FQC产品终检程序Final Inspection Procedure文件更改历史记录Amendment History版次Revision更改日期Change Date更改概要Description of Changes更改人Prepared by批准人Approved byPrepared by编制Reviewed by审核Approved by批准Final Inspection ProcedureFQC产品终检程序1.0目的/Purpose:1.1确保入仓产品之质量以及送给客户前的产品质量符合客户要求。

To ensure productquality meet customer’s requirements prior to enter into warehouse anddeliver to customer.1.2根据最终检验记录分析，提供给生产部和工程部，作为产品质量改进的方向。

Provide final inspection and analysis record to Production Dept andManufacturing Engineering Dept. as an orientation for quality improvement.2.0适用范围Scope:适用于DXC公司终检检验.Apply to final inspection in DXC.3.0定义Definitions:N/A4.0职责Responsibility:4.1QC主管/QE负责对检验结果予以审批。

QC supervisor / QE is responsible forconfirmation of inspection results.4.2FQC组长负责复核检验结果。

FQC leader is responsible for review of inspectionresults.4.3FQC负责对产品进行最终检验，当被检的产品被判为不合格时，FQC有权将不合格产品退回生产部，并要求责任部门的主管﹑组长作出相应的改善，直至结果获得满意为止。

This label is categorized as Type ZZ.Specifications for this label are located at the end of this document.In the event Type T,U, and V labels are too large, a Type W label may be used for this redundantlabel purpose for pallet quantity inbound materials to Dell manufacturing, fulfillment, and Service sites. Consultation with and approval from Import/Export Compliance is required prior to use of Type W labels on outbound piece part shipments from Service sites because Type W does not include Country of Origin.8.4 PPID Label ColorThe standard PPID label is black ink printed on white label stock. When a PPID label is to be used onFor example:Type EY Label defines a Type E label printed on Pantone Yellow Coated label stockType E-Verdana font or equivalent, bold- 6 pt., all fields-300 DPI printer minimum-Code 128B- 5 - 10 mil minimum narrow bar-.12” minimum barcode height-.10” or greater quiet zone-2” x .50” label size-Brady THT – 53 – 423 – 3 polyester stock or Dell engineering approved equivalent-Brady B478 or B497 polyimide or Dell engineering approved equivalent polyimide where high temperature label needed-Brady R6000 ribbon or Dell engineering approved equivalentType UY Label defines a Type U label printed on Pantone Yellow Coated label stock-Verdana font or equivalent, bold- 5 pt. human readable; 6 pt. …Made In‟ and …DP/N‟-300 DPI printer minimum. Must meet the contrast and print growth requirements per ISO/IEC 16022 and have a print quality lev el of …C‟ or higher per ISO/IER 15415-24x24 row/column Datamatrix ECC200 symbol per ISO/IEC 16022 Data Matrix Specification-15 mil cell dimension-Minimum quiet zone all-around barcode compliant with ISO/IEC16022 and ISO/IEC 15415 specifications- 1.00” x 0.500” label size-Brady THT –5– 478 –10 (ESD) polyimide, Brady THT-5-423-10 polyester stock (or Dell engineering approved equivalent) o Applications where label print is in direct contact with objects over 40 C or exposed to 150 C (or greater) ambient temperature require polyimide label stock-Brady R6002 ribbon (or Dell engineering approved equivalent)8.5 DeviationA deviation may be issued by the Dell SQE for unique parts that do not meet the requirements of thisspecification due to size, shape or other constraints for each label type. The supplier may request a deviation by initiating an ECR through Agile. The Dell SQE and/or commodity team for thatType A-Verdana font or equivalent, bold-12 pt., all fields-203 DPI printer minimum-Code 128B-13 - 15 mil minimum narrow bar (use lowest density possible while maintaining quiet zone) -.550” minimum barcode height-.10” or greater quiet zoneType B-Verdana font or equivalent, bold-Use varying 10 – 28 pt. Font –see label above-203 DPI printer minimum-Code 128B-10 -15 mil minimum narrow bar- see label above-.50 minimum barcode height-.15” or greater quiet zone-4” x 6.5” label size-Brady THT – 78 – 402 -.9 paper stock or Dell engineering approved equivalent-Brady R6107 ribbon or Dell engineering approved equivalent-Note - Keyboard Language Code –. Keyboard language code is the alpha abbreviation to indicate the language of the keyboard. See attachment A for keyboard language code list.Type C LabelType C-Verdana font or equivalent, bold-Use varying 10 – 28 pt. Font –see label above-Made In XXXXX Human readable text must be 12 pt Font maximum-203 DPI printer minimum-Code 128B-15 mil minimum narrow bar- 1.498” minimum barcode height-.10” or greater quiet zone-4” x 6.5” label size-Brady THT – 78– 402 – .9paper stock or Dell engineering approved equivalent -Brady R6107 ribbon or Dell engineering approved equivalentType E-Verdana font or equivalent, bold- 6 pt., all fields-300 DPI printer minimum-Code 128BType F – REV ONLYVerdana font or equivalent, boldPackage ID font 8 pt.All other fonts 10 pt.203 DPI printer minimumCode 128B10 -15 mil minimum narrow bar.75” minimum barcode height.10” or greater quiet zone4.0” x 6.0” label sizeBrady THT – 25 1 or Dell engineering approved equivalent Brady R6107 series ribbon or Dell engineering approved equivalentType K-Verdana font or equivalent, bold-12 pt. - all descript fields-10 pt. - all data fields-203 DPI printer minimum-Code 128B-10 mil minimum narrow bar-.30 - .50” minimum barcode height-.10” or greater quiet zone-4” x 6.5” label size-Brady THT – 78 – 402 – .9 or Dell engineering approved equivalent -Brady R6107 series ribbon or Dell engineering approved equivalentUS-01234D-54321-41J-1234Type QType S LabelType S-Verdana font or equivalent, bold- 6 pt., all fields-600 DPI printer minimum-Code 128B- 5 - 10 mil minimum narrow bar-.12” minimum barcode height-.10” or greater quiet zone- 1.50” x .75” label size-Brady Y884572 White Nylon Cloth-Brady R6000 ribbon or Dell engineering approved equivalent for use with B478 or B497-Brady R4902 ribbon or Dell engineering approved equivalent for use with white nylon clothType T Label-Verdana font or equivalent, bold- 4 pt. human readable DP/N- 3 pt. human readable country of origin and PPID part number-300 DPI printer minimum. Must meet the contrast and print growth requirements per ISO/IEC 16022 and have a print quality level of …C‟ or higher per ISO/IER 15415-24x24 row/column Datamatrix ECC200 symbol per ISO/IEC 16022 Data Matrix Specification-10 mil cell dimension-Minimum quiet zone all-around barcode compliant with ISO/IEC16022 and ISO/IEC 15415 specifications-0.500” x 0.437” label size-Brady THT –12– 478 –10 (ESD) polyimide, Brady Y818006 White Nylon Cloth (or Dell engineering approved equivalent) o Applications where label print is in direct contact with objects over 40 C or exposed to 150 C (or greater) ambient temperature require polyimide label stock-Brady R6000 ribbon or Dell engineering approved equivalent for use with B478 or B497-Brady R4902 ribbon or Dell engineering approved equivalent for use with white nylon clothType U Label-Verdana font or equivalent, bold- 4 pt. human readable; 5 pt. …Made In‟ and …D P/N‟-300 DPI printer minimum. Must meet the contrast and print growth requirements per ISO/I EC 16022 and have a print quality level of …C‟ or higher per ISO/IER 15415-24x24 row/column Datamatrix ECC200 symbol per ISO/IEC 16022 Data Matrix Specification-15 mil cell dimension-Minimum quiet zone all-around barcode compliant with ISO/IEC16022 and ISO/IEC 15415 specifications- 1.00”x 0.500” label size-Brady THT –5– 478 –10 (ESD) polyimide, Brady Y826736 White Nylon Cloth (or Dell engineering approved equivalent) o Applications where label print is in direct contact with objects over 40 C or exposed to 150 C (or greater) ambient temperature require polyimide label stock-Brady R6000 ribbon or Dell engineering approved equivalent for use with B478 or B497-Brady R4902 ribbon or Dell engineering approved equivalent for use with white nylon clothType V Label-Verdana font or equivalent, bold-Minimum 6 pt. human readable font. 8 pt. recommended for “Made In” and “DP/N”.-300 DPI printer minimum. Must meet the contrast and print growth requirements per ISO/IEC 16022 and have a print quality level of …C‟ or higher per ISO/IER 15415-24x24 row/column Datamatrix ECC200 symbol per ISO/IEC 16022 Data Matrix Specification-20 mil cell dimension-Minimum quiet zone all-around barcode compliant with ISO/IEC16022 and ISO/IEC 15415 specifications- 1.500” x 0.75” l abel size-Brady THT –6– 478 –10 (ESD) polyimide, Brady Y884572 White Nylon Cloth (or Dell engineering approved equivalent) o Applications where label print is in direct contact with objects over 40 C or exposed to 150 C (or greater) ambient temperature require polyimide label stock-Brady R6000 ribbon or Dell engineering approved equivalent for use with B478 or B497-Brady R4902 ribbon or Dell engineering approved equivalent for use with white nylon cloth-Type W label only to be used as a redundant label on the exterior of individually packaged parts.-Verdana font or equivalent, bold- 3 pt. human readable-300 DPI printer minimum. Must meethigher per ISO/IER 15415-24x24 row/column Datamatrix ECC200 symbol per ISO/IEC 16022 Data Matrix Specification-10 mil cell dimension-Verdana font or equivalent, bold-Minimum 4 pt. human readable font-300 DPI printer minimum. Must meet the contrast and print growth requirements per ISO/IEC 16022 and have a print quality level of …C‟ or higher per ISO/IER 15415Verdana font or equivalent, boldMinimum 6 pt. human readable font-Verdana font or equivalent, bold-Use varying 12-28 pt. fonts-300 DPI printer minim um. Must meet the contrast and print growth requirements per ISO/IEC 16022 and have a print quality level of …C‟ or higher per ISO/IER 15415-24x24 row/column Datamatrix ECC200 symbol per ISO/IEC 16022 Data Matrix Specification-30 mil cell dimension-Minimum quiet zone all-around barcode compliant with ISO/IEC16022 and ISO/IEC 15415 specifications- 3.00” x 2.00” label sizeo Brady THT –19-402-3 paper label stock or Dell engineering approved equivalent-Brady R6102 ribbon or Dell engineering approved equivalent-Verdana font or equivalent, bold- 5 pt. PPID human readable; 6 pt.-300 DPI printer minimum. Must meet the contrast and print growth requirements per ISO/IEC 16022 and have a print quality lev higher per ISO/IER 15415-24x24 row/column Datamatrix ECC200 symbol per ISO/IEC 16022 Data Matrix Specification-15 mil cell dimension-Minimum quiet zone all-around barcode compliant with ISO/IEC16022 and ISO/IEC 15415 specifications- 1.00” x 0.500” label size-Brady THT –5– 478 –10 (ESD) polyimide, Brady Y826736 White Nylon Cloth (or Dell engineering approved equivalent) o Applications where label print is in direct contact with objects over 40 C or exposed to 150 C (or greater) ambient temperature require polyimide label stock-Brady R6000 ribbon or Dell engineering approved equivalent for use with B478 or B497-Verdana font or equivalent, bold-Minimum 6 pt. human readable; 8 pt recommended for “DP/N”-300 DPI printer minimum. Must meet the contrast and print growth requirements per ISO/IEC 16022 and hav higher per ISO/IER 15415-24x24 row/column Datamatrix ECC200 symbol per ISO/IEC 16022 Data Matrix Specification-20 mil cell dimension• Verdana font or equivalent, bold• 12 pt. fonts• 300 DPI printer minimum. Must meet the contrast and print growth requirements per ISO/IEC 16022 and have a print quality leve higher per ISO/IER 15415• 24x24 row/column Data Matrix ECC200 symbol per ISO/IEC 16022 Data Matrix Specification• 20 mil cell dimension for 2D barcode• Minimum quiet zone all-around barcode compliant with ISO/IEC16022 and ISO/IEC 15415 specifications• 4.00” x 2.00” label size• Brady THT –19-402-3 paper label stock or Dell engineering approved equivalent• Code 128B• 13 mil minimum narrow bar•.550” minimum barcode height•.10” or greater quiet zone•Brady R6102 ribbon or Dell engineering approved equivalentCN-01234D-54321-932-0123 Rev A00• Verdana font or equivalent, bold• 12 pt. fonts• 300 DPI printer minimum. Must meet the contrast and print growth requirements per ISO/IEC 16022 and have a print quality leve higher per ISO/IER 15415• 24x24 row/column Data Matrix ECC200 symbol per ISO/IEC 16022 Data Matrix Specification-Verdana font or equivalent, bold-Minimum 6 pt. human readable font.-300 DPI printer minimum. Must meet the contrast and print growth requirements per ISO/IEC 16022 and have a print quality leve higher per ISO/IER 15415-24x24 row/column Datamatrix ECC200 symbol per ISO/IEC 16022 Data Matrix Specification-15 mil cell dimension-Verdana font or equivalent, bold-Minimum 6 pt. human readable font.-300 DPI printer minimum. Must meet the contrast and print growth requirements per ISO/IEC 16022 and have a print qualit higher per ISO/IER 15415。

sequence的用法和例句主题：sequence的用法和例句序列（Sequence）是指一系列按顺序排列的事物、事件或数据。

在编程中，序列是非常常见且重要的概念。

本文将一步一步回答关于序列的用法和举例，以帮助读者更好地理解。

1. 什么是序列（Sequence）？序列是一种数据结构，代表着一系列按顺序排列的项目。

这些项目可以是数字、字符串、对象或其他任何数据类型。

序列可以通过索引访问其元素，并支持一系列的操作，例如切片、迭代、连接、复制等。

2. 序列的常见类型有哪些？Python中常用的序列类型包括字符串（String）、列表（List）、元组（Tuple）。

3. 序列的索引如何使用？序列中的每个元素都有一个索引值，表示该元素在序列中的位置。

索引从0开始，依次递增。

可以使用方括号（[]）来访问序列中的元素，指定元素的索引值即可。

例句：pythonstring = "Hello, World!"print(string[0]) # 输出：Hlist = [1, 2, 3, 4, 5]print(list[3]) # 输出：4tuple = ("apple", "banana", "cherry")print(tuple[2]) # 输出：cherry4. 序列的切片如何使用？切片（Slice）是从序列中获取连续子序列的一种方式。

可以使用冒号（:）来指定切片的起始索引和结束索引，格式为[start:end]，其中起始索引包含在切片中，而结束索引不包含在切片中。

例句：pythonstring = "Hello, World!"print(string[7:12]) # 输出：Worldlist = [1, 2, 3, 4, 5]print(list[1:4]) # 输出：[2, 3, 4]tuple = ("apple", "banana", "cherry", "orange", "melon")print(tuple[2:]) # 输出：('cherry', 'orange', 'melon')5. 序列的迭代如何使用？迭代（Iteration）是指逐个访问序列中的元素。

UCA International User’s GroupOpenSG SG Conformity Working GroupSecurity Conformance Task ForceTechnical Use Case Task GroupScope Statement and Estimated ScheduleThe Technical Use Case Task Group has been formed under the UCAIug OpenSG SG Conformity Security Conformance Task Force. This document defines the scope of work for this task group and estimated schedule of tasks.1. Table of Contents1.TABLE OF CONTENTS (2)2.CHANGE RECORD (3)3.TASK GROUP DE S CRIPTION (4)A.S COPE (4)B.C OMPLETION C RITER IA (4)C.C ONSTRAINTS (4)D.D EPENDENCIES (4)E.A SSUMPTIONS ............................................................................................................................. 错误！未定义书签。

F.C RITIC AL S UCCESS F ACTORS ................................................................................................... 错误！未定义书签。

Invitation for ProposalsCEATI International Inc. (CEATI)1010 Sherbrooke Street West, Suite 2500Montreal, Quebec, Canada H3A 2R7Website: OVERHEAD LINE DESIGN ISSUES & WIND AND ICE STORM MITIGATIONINTEREST GROUP (WISMIG)CEATI PROJECT No. T133700-3390BEST PRACTICES FOR DESIGN OF TRANSMISSION LINE STRUCTURES LOCATED IN WATER FOR PROTECTION AGAINST ADDITIONAL LOADS IMPOSED DURING FLOODS AND FOUNDATION SCOURCEATI International Inc. (CEATI) invites the submission of proposals to perform research work on the following topic:TITLEBest Practices for Design of Transmission Line Structures Located in Water for Protection against Additional Loads Imposed During Floods and Foundation ScourINTRODUCTIONTransmission utilities invariably face situations where support structures must be located in water (crossing a river or creek) or very near river banks. The structural members near the water’s surface and the foundations of such towers will be subjected to significant hydraulic loads if these waterways are subject to floods or if the flow of water is constrained due to additional construction activities in the riverbed. In cold regions the top layer of surface water freezes and could subject the structure to significant ice and additional loads. Recent incidents at a couple of Canadian utilities indicate that such situations could have a significant impact on the reliability of the power supply. Since occurrence of these types of situations is rare, the transmission line design codes do not specify any guidance for either ice or additional loads due to freezing of the water’s surface to be considered in the design, or for increases in hydraulic loads, impacts from logs and debris floating in the water, methods to safeguard against foundation scour, etc. Due to the recent incidents and the increased emphasis on power reliability, transmission utilities are interested in methods for designing transmission structures for increased hydraulic or ice loads, impact of freezing of water surface on supporting structures, and to protect tower foundations against foundation scour or soil liquefaction.PROJECT OBJECTIVESThe objective of this project is to prepare a best practices document for design of transmission line structures located in or near water to withstand increased hydraulic or ice loads, impact of water surface freezing, impact of logs and debris floating in water, and foundation scour or soil liquefaction situations.SCOPE OF THE STUDYThe scope of this project is to review recent incidents of damage/failure of transmission line structures located at river banks and subjected to foundation scour, etc., in flood situations, review the additional loads exerted in such situations, review methods used to safeguard against foundation scour and their applicability to transmission line structures, and prepare a comprehensive report documenting the research and findings.TASKSIt is envisioned that the following tasks would be required to meet the project objectives and scope:∙Review incidents of transmission structure damage and failure due to ice build-up, freezing of water surface, impact of logs and debris, etc., floating in the water, foundation scour, and/or soil liquefaction.∙Review design practices and methods for design of structures to withstand hydraulic loads, ice loads, impact of the freezing of water surface and impact of floating debris, etc., in other industries (e.g. bridges and offshore structures). Review methods used for foundation stabilization to mitigate the impact of foundation scour and/or soil liquefaction.∙Develop recommendations for additional loads to be considered for the design of transmission structures and foundations.∙Develop recommendations for methods of foundation stabilization to mitigate the impact of foundation scour or soil liquefaction.∙Prepare a comprehensive report detailing the results of the investigation.POTENTIAL BENEFITSThe project will provide recommendations for design of transmission structures for increased power supply reliability.DELIVERABLESThe successful proponent is expected to provide the following:Project Report:The deliverables will include a comprehensive report containing a best practices guide for the design of transmission structures to withstand impact of flood, foundation scour, and soil liquefaction situations.The successful proponent is expected to prepare a ready-to-publish report on the results of the investigation and present the results to funding consortium members. The completed report must be submitted for CEATI approval in editable, electronic format (Microsoft Word).Progress Reports:Progress reports, with reasonable details, will also be required on either a quarterly or milestone basis—normally these are scheduled to coincide with the completion of the identified tasks. It is expected that the details submitted with the progress reports would form parts of the final report.Power Point Presentation:A ten to fifteen (10-15) slide Power Point Presentation. This should be composed of three main sections:1.The factors motivating the initiation of the work;2. A description of the main findings;3.Summary of the conclusions and recommendations for future research.Technical Brief:Contents for the Project’s Technical Brief. This is a summary of the report (between 1,000 and 1,500 words), which is published separately by CEATI. Proponents are not responsible for the preparation of a ready-to-print Technical Brief, but solely to provide the contents for the following 4 sections: Background, Summary, Conclusions and Recommendations.1.The Report Background section should be short (approximately 200 words) and shoulddetail the reasons the work was conducted.2.The Summary section should be approximately 700 words. It must provide a generaldescription of the work program.3.The Conclusions section should be about 150 words and should provide a general outlineof the key results (do not include specifics).4.The Recommendations section should be about 200 words and should include adescription of the potential applications of the results.Please note that all reporting must be submitted in English. If written English is not the author’s strong suit, it is recommended that a technical writer be hired to review the document prior to submission.PROPOSALIt is expected that the proponent would clearly state and elucidate the methodology and identify various tasks (with demonstrable outcome) to meet the objectives of the project. In other words, it is expected that the methodology will be described in reasonable details and would not be simply copied from the IFP.BUDGET AND SCHEDULEThe proposal must contain a schedule and a quote of required remuneration for the work in US or Canadian dollars. All prices shall be presumed to be in Canadian dollars (CAD) unless explicitly specified otherwise in the proposal. Proponents’ responses to this section must include a full breakdown of the budget and schedule, including an indication of rates and hours and the task allocation for the key personnel by task and must correspond to any phases or milestones outlined above. (Please refer to the Proposal Template for more information).It is estimated that the budget for this project would be around USD $55,000. It is expected that this project can be completed (draft final report submitted for review and approval) within eighteen (18) months of initiation.The proposal must include the names and qualifications of the key individuals who will be involved, as well as the name of the accountable manager.CEATI is not bound to accept any proposal but any selection will take into account technical merit (as displayed by the description and details presented in the proposal regarding the ways in which the proponent plans to meet the scope and objective of the project), qualifications and relevance of the experience of the proposed project team in undertaking similar work, price and schedule. A proposal may be accepted in whole or inpart. A commitment to proceed with the first phase of a multi-phase project does not automatically imply that the work of the subsequent phases will be undertaken. ALTERNATIVE WORKSProponents shall generally follow the above description of work, but are encouraged to offer alternative works if these alternatives will meet the objectives and provide a better end product to the utilities sponsoring this work. Alternatives shall be fully described including logistics explaining why the alternate works are being offered and the benefits to be realized by the funding utilities. Where alternatives are proposed, separate budgets shall be calculated for each alternative.SUBMISSION OF PROPOSALSThe consideration of proposals received will be limited to those who indicate their intent to employ a suitable experienced project team and who possess proper facilities to perform the work. Receipt of this “IFP” does not necessarily constitute a prior determination by CEATI that your organization has the requisite experience and facilities.The proposal must be properly completed and executed in accordance with the CEATI guidelines available at /technology-providers/submission-guidelines, and shall be submitted to CEATI as an attachment in Microsoft Word at the following website: /proposals/. Be sure to indicate project number “T133700-3390” on the submission form. For assistance, please contact us at 514-866-5377.The successful proponent will be required to sign the CEATI Standard Agreement upon project initiation. Proponents are encouraged to download a copy of the Standard Agreement for review from /technology-providers/submission-guidelines prior to submitting a proposal, if they are not already familiar with these terms. Proponents may contact CEATI at ****************** to discuss any questions or concerns regarding these terms.CLOSING DATE FOR RECEIPT OF PROPOSALSThursday, February 7, 4:00 pm EST。