2021年计算机软件专业大学留学申请书
现代社会的信息已经非常发达,你可能觉得在媒体、互联网上可以了解到发达国家的一切,完全可以想象得到在国外是如何生活的。这里给大家分享一些2021年计算机软件专业大学留学申请书,欢迎阅读!
2021年计算机软件专业大学留学申请书
Dear _,
Knowing where one is heading during navigation brings assured happiness. As a student majoring in Computer Software, I began my odyssey four years ago. Now, after the initial mysticism was gradually unveiled, my curiosity remains the same. Indeed, having entered this splendid computer world, I am more than greedy for something new.
From the beginning of my study, my endeavor was fixed on the underlying branches of Computer Science, particularly System Software development. Novel applications on other’s platform may be fruitful, but I think it’s more appealing to act as an independent “manager”. In fact, mathematics, OS, DBMS and modern compiler are all the examples, any breakthrough of which would push forward the whole industry. Individuality is achieved in this unique position.
My paces toward this goal are always steady. As mathematics permeates to the every corner of Computer Science, I am eager to see how it functions. I took courses offered by the Mathematics Department including Mathematical Analysis and Advanced Algebra. The curriculum also covered Discrete Mathematics, Probability & Statistics and Theoretical Computer Science. As supplement to my scope of knowledge, I learn by myself Combination Mathematics and the Science of Programming. This really made a hard period of time, but the harvest was rewarding. I come to understand that even the most irrelevant software disciplines have the origins in common. The importance of Fractured Geometry in Computer Graphics is already obvious. What if a step furthers toward TSP or Bin Packing? Immeasurable. Then came my favorite topics: Operating System, Compiler and Database. I worked hard and derived bits of my own insight. In fact, I was greatly encouraged to find some of my ideas successfully implemented in the corresponding course projects. My final grade is straight “As” in these coursed. In short, although my experience in Computer Science is still limited, I believe its depth is well accessible. As my advisor, Prof. Fang Yu, put it figuratively in one of his lectures: “ It makes no difference whether a hunter captures 5 or 7 rabbits. What counts is he knows how to use his gun.”
I think I can be the qualified shooter now. in my undergraduate years, I have earned various kinds of scholarships, among which were “Peking University Fellowship” and “Excellent Academic Scholarship”. My overall GPA ranks upper 10% among 48 students of the same grade. Because of my satisfactory performance, I was granted the honor of entering the graduate program at Peking University directly, waived of the admission test. In retrospect, my workload is always heavy but it is worth my time of effort. Presently, I have both adequate theoretical understanding and rich programming experience. READY I AM.
Of all the sub-areas of Computer Science, my major interest is parallel processing and the related compiler construction. The terminology of parallel processing came to me when I read an article about digital circuit testing. According to this article, there exist many serial approaches of solving the automatic test pattern generation (ATPG) problem. Though certain method of solving ATPG sometimes proved efficient, the computation time for a method of solving ATPG sometimes proved efficient, the computation time for a complete result is intolerable, the a parallel processing machine is proposed. Using paralleled ATPG method, this NP complete dilemma is ingeniously handled. After reading, I surprisingly realized that parallel processing opened a new window for the computationally intensive problems, which prove intractable for the VON NEUMANN Architecture. You can always first split a specific computational task into several independent divisions, then assign each part to a certain processor. With reasonable partition and proper synchronization, most grueling scientific applications can be reduced to normal scale problems.
With the advent of the multiprocessor architecture, compiler optimization faced a new challenge. A compiler not only has to translate, but it is also responsible for generating parallel-processing loop provides a rich opportunity of exploiting parallelism. Therefore, finding an optimum strategy for loops because a hot research topic. On the whole, parallelism changes our view toward the conventional computer architecture so that the compiler’s construction must make the corresponding modification. Because of this challenging characteristic, I choose them to be my interest of future study.
Yet parallel processing is far from maturity. It has been observed that some sequential algorithms can be easily translated into fast parallel algorithms while some others may not. Is every sequential computation can be done efficiently in parallel? If not, what properties result in such distinction? Another unsettled problem is programming parallel computers now is like programming serial computers in the 1960s. Programmers get locked into a particular manufacturer’s computers. Is it possible for us to design a higher level language for parallel computers that hides the underlying machine architecture from users? Both are crying out for solution.
Without advanced knowledge, I can do nothing but wait. In order to convert my undergraduate study into full play, graduate education is a necessity. From the college guide and my advisor’s recommendation, I am pleased to learn that your department has an academic atmosphere where originality is appreciated and individual potential is explored. It will be the best place for my specialized study. If possible, my main interest in the future will be in the following areas:
Parallel processing, Compiler construction.
Distributed/concurrent systems, Operating system.
Machine learning, Automated fault diagnosis.
As my undergraduate education is very basic, if you feel that I am more suited for some other areas, any of your suggestion would be highly appreciated.
Upon the completion of my study, I would return to Peking University and teach what I’ve learned to the students. Then I shall establish a research center to experiment new ideas. It is my ultimate goal to see the Chinese computer products leading the global market in the next century. After all, the navigation is not over yet!
Yours sincerely,
xuexila
留学俄罗斯奖学金介绍
一、国家学术奖学金
(Государственная академическая стипендия)
这个奖学金每个学生都有机会获得,只要有优异的成绩(全科5分),第二学期就可以获得,国家学术奖学金每个学校发放的金额不同,但最低发放金额不低于1340卢布。
二、国家社会奖学金
(Государственная социальная стипендия)
这个奖学金不取决于学生的成绩,是最对有困难学生的帮助,残疾学生,孤儿,贫困学生,留守儿童等都可以申请得到,每个学校不同,但最低发放金额不低于2010卢布。
三、俄罗斯总统奖学金及俄政府特殊奖学金
(Стипендии президента РФ и Специальные стипендии правительства РФ)
奖学金发放给个人领域内取得优异成绩的全日制学生,如奥林匹克大赛,发明家,刊物发表文章作者等。总统奖学金为2200卢布,俄政府特殊奖学金为1440卢布。
四、个人署名奖学金(Именные стипендии)
这是由个人署名的奖学金,发放范围有学习,体育,科学,技术及创新领域,相对政府发放的奖学金,个人奖金金额更高,如波塔宁奖学金,每月发放的金额为15000卢布。
俄罗斯上学学历越高,获得的奖学金越多,比如总统奖学金研究生为4500卢布,俄政府特殊奖学金硕士生为3600卢布。除此之外还有专门的硕士。博士研究生奖学金。
五、硕士、博士国家奖学金
(Государственная стипендия аспирантам и докторантам)
此项奖学金由俄罗斯教育部制定名单,奖励那些通过评审的硕士和博士生,取得成果,发表过学术论文的学生优先通过。硕士研究生为6000卢布,博士生为10000卢布。
俄罗斯留学就业趋势介绍
一、就业的方向
1.公务员:俄语专业的公务员还是有很多部门招的,比如外交部、商务部这些,另外像是海关、边检这样的部门也是会招的。
2.传媒机构:像是新华社、外文局这样带着国际性的传媒机构每年也是会招收俄语专业的学生。不过毕竟是媒体机构,所以对于俄语水平是有很高的要求,另外他们的要求也不止是俄语,比如说新华社还有英语六级的要求,而外文局则会要求得是研究生学历的学生才能来应聘。
3.教师:学习俄语的,也可以到高校里去做教师,这个职业门槛非常高的。一般都得是博士学历的才行,不过也有硕士就能申请的。
4.国企或者私企:目前国内有很多的大企业已经在海外去发展了,比如说中兴华为这些企业,而且一般这些企业也会招俄语专业的学生。到这些单位去工作就得常驻国外,不过他们的薪水还有待遇都是很不错的,基本上会包吃住,而且年薪也不会少于10万。
5.旅游公司:其实就是做导游。一般在北京这样的城市里会有比较大的需求,比较来旅游的人多,可以先去考个资格证,对于俄语这个行业不会要求太高的。
6.外贸:外这个行业也是现在招收俄语学生最多的。学生在开始就业后,一般不会只做翻译,而是要把业务员、跟单等等的工作也负责了,比如说和客户进行联络并且完成订单之类的。
二、就业的趋势
这几年来,不管是普通的学生还是艺术生,他们的这个分数线每年都是会提升的。对于艺术生来说,除了去艺考,其实到国外去留学,尤其俄罗斯这里,是一种比较快捷,而且质量也更加好的求学路。
俄罗斯的留学为什么这边受关注,这很大的原因两国之间的关系。双方都有贸易往来,那么相应的职位肯定也会有需求增加的情况出现。而学生在完成了留学,回到国内的时候,因为既有专业的知识,也掌握了俄语,在同行业上其实不会面对太激烈的竞争,所以机会多自然也就更多了。
所以俄罗斯的留学生其实是有很强的竞争力,因为他们比国内的学生多了一门俄语的优势。而且俄语因为具有排它性,在某些岗位上,就算非俄语的人才有多么的强,也无法代替会俄语的人才。而且留学生们在回国后也有了留学的背景。
所以这些学生在国内不管想依靠什么方面去进行就业,基本不会有问题的,哪怕是想考公务员也都可以。如果是在企业里就业,薪资肯定比较高。