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Essay on Computer in Sanskrit : In this article we are providing कंप्यूटर पर संस्कृत निबंध which is also searched as " संगणक पर संस...
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Sanskrit language , (from Sanskrit saṃskṛta , “adorned, cultivated , purified”), an Old Indo-Aryan language in which the most ancient documents are the Vedas , composed in what is called Vedic Sanskrit . Although Vedic documents represent the dialects then found in the northern midlands of the Indian subcontinent and areas immediately east thereof, the very earliest texts—including the Rigveda (“The Veda Composed in Verses”), which scholars generally ascribe to approximately 1500 bce —stem from the northwestern part of the subcontinent, the area of the ancient seven rivers ( sapta sindhavaḥ ).
What is generally called Classical Sanskrit —but is actually a language close to late Vedic as then used in the northwest of the subcontinent—was elegantly described in one of the finest grammars ever produced, the Aṣṭādhyāyī (“Eight Chapters”) composed by Pāṇini ( c. 6th–5th century bce ). The Aṣṭādhyāyī in turn was the object of a rich commentatorial literature, documents of which are known from the time of Kātyāyana (4th–3rd century bce ) onward. In the same Pāṇinian tradition there was a long history of work on semantics and the philosophy of language , the pinnacle of which is represented by the Vākyapadīya (“Treatise on Sentence and Word”) of Bhartṛhari (late 6th–7th century ce ).
Over its long history, Sanskrit has been written both in Devanāgarī script and in various regional scripts, such as Śāradā from the north ( Kashmir ), Bāṅglā (Bengali) in the east, Gujarātī in the west, and various southern scripts, including the Grantha alphabet , which was especially devised for Sanskrit texts. Sanskrit texts continue to be published in regional scripts, although in fairly recent times Devanāgarī has become more generally used.
There is a large corpus of literature in Sanskrit covering a wide range of subjects. The earliest compositions are the Vedic texts. There are also major works of drama and poetry , although the exact dates of many of these works and their creators have not been definitively established. Important authors and works include Bhāsa (for example, his Svapnavāsvavadatta [“Vāsavadatta in a Dream”]), who is assigned widely varying dates but definitely worked prior to Kālidāsa, who mentions him; Kālidāsa , dated anywhere from the 1st century bce to the 4th century ce , whose works include Śakuntalā (more fully, Abhijñānaśākuntala ; “Śakuntalā Recalled Through Recognition” or “The Recognition of Śakuntalā”), Vikramorvaśīya (“Urvaśī Won Through Valour”), Kumārasambhava (“The Birth of Kumāra”), and Raghuvaṃśa (“The Lineage of Raghu”); Śūdraka and his Mṛcchakatika (“Little Clay Cart”), possibly dating to the 3rd century ce ; Bhāravi and his Kirātārjunīya (“Arjuna and the Kirāta”), from approximately the 7th century; Māgha , whose Śiśupālavadha (“The Slaying of Śiśupāla”) dates to the late 7th century; and from about the early 8th century Bhavabhūti , who wrote Mahāvīracarita (“Deeds of the Great Hero”), Mālatīmādhava (“Mālatī and Mādhava”), and Uttararāmacarita (“The Last Deed of Rāma”). The two epics Rāmāyaṇa (“Life of Rāma”) and Mahābhārata (“Great Tale of the Bhāratas”) were also composed in Sanskrit, and the former is esteemed as the first poetic work ( ādikāvya ) of India . The Pañcatantra (“Treatise in Five Chapters”) and Hitopadeśa (“Beneficial Instruction”) are major representatives of didactic literature. Sanskrit was also used as the medium for composing treatises of various philosophical schools, as well as works on logic, astronomy, and mathematics.
Sanskrit is not restricted to Hindu compositions. It has also been used by Jaina and Buddhist scholars, the latter primarily Mahāyāna Buddhists. Further, Sanskrit is recognized in the constitution of India as both a classical language and an official language and continues to be used in scholarly, literary, and technical media, as well as in periodicals, radio, television, and film.
In its grammatical structure, Sanskrit is similar to other early Indo-European languages such as Greek and Latin . It is an inflected language. For instance, the Sanskrit nominal system—including nouns, pronouns, and adjectives—has three genders (masculine, feminine, and neuter), three numbers (singular, dual, and plural), and seven syntactic cases (nominative, accusative, instrumental, dative, ablative, genitive, and locative), in addition to a vocative. However, a full set of distinct forms occurs only in the singular of masculine -a- stems of the type deva- ‘god’: nominative devas ( devaḥ before a pause), accusative devam , instrumental devena , dative devāya , ablative devāt , genitive devasya , locative deve , and vocative deva .
Adjectives are inflected to agree with nouns, and there are distinct pronominal forms for certain cases: e.g., tasmai , tasmāt , tasmin (masculine-neuter dative, ablative, and locative singular, respectively) ‘that one.’
Verbs inflect for tense , mode, voice , number, and person. These may be illustrated by third-person active forms of pac ‘cook, bake’ (used if cooking is done for someone other than the agent), including the present indicative pacati ‘cooks, is cooking’; the proximate future pakṣyati ‘will cook,’ referring to an act that will take place at some time in the future, possibly including the day on which one is speaking; the non-proximate future paktā ‘will cook,’ referring to an act that will take place at some time in the future, excluding the day on which one is speaking; the aorist apākṣīt ‘cooked, has cooked,’ referring to an act completed in the general past, possibly including the day on which one speaks; the imperfect past apacat ‘cooked,’ referring to an act in the past, excluding the day on which one speaks; the perfect reportative papāca ‘cooked,’ referring to an act performed in the past, excluding the day of speaking, and which the speaker did not directly witness or is not personally aware; the imperative pacatu ‘should, must cook,’ expressing a command, request, or invitation to perform the act; the optative pacet , used in the same sense as the imperative; the precative pacyāt ‘may cook,’ expressing a wish; and the contrafactual conditional apakṣyat ‘if (he) cooked, if (he) had cooked, if (he) would cook, if (he) would have cooked.’ There are also middle forms (‘cook for oneself’) corresponding to the forms just cited: pacate ‘cooks, is cooking,’ pakṣyate ‘will cook,’ paktā ‘will cook,’ apakta ‘cooked, has cooked,’ apacata ‘cooked,’ pece ‘cooked,’ pacatām ‘should, must cook,’ pakṣīṣṭa ‘may cook,’ apakṣyata ‘if (I) cooked, if (I) had cooked, if (I) would cook, if (I) would have cooked.’ There is also a passive, as with the third singular present indicative pacyate ‘…is being cooked.’ Early Vedic preserves remnants of an earlier aspectual contrast between perfective and imperfective.
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Anirban Dash
First International Sanskrit Computational …
Amba Kulkarni
Antonia Ruppel
Forthcoming. Written at the request of Motilal Banarsidass, the main Indological publisher in India; intended to give an overview of the history of Sanskrit, with special emphasis on the relevance of Sanskrit now (‘in the electronic age’).
IAEME PUBLICATION
IAEME Publication
Sanskrit considered being the mother of all languages possesses a rich grammar which was penned by Panini around 2500 years ago. The dual case is a unique and beautiful feature of Sanskrit which is not present in any other language other than Sanskrit. The importance of dual case is ignored in almost all the languages which lead to confusion while processing dual and plural but this ambiguity is also removed in the highly efficient and organized Sanskrit grammar. This research paper focuses on this Indian treasure and suggests its use for to-day's computer applications. It explores diverse key characteristics of NLP, various problems encountered in NLP are and how Sanskrit successfully overcomes these limitations and fulfills all the requirements of a Natural Language Processor.
People’s Linguistic Survey of India, Volume 36
Shakuntala Gawde
Lecture Notes in Computer Science
Gérard Huet
Proceedings of SAARD International Conference
Ashutosh Pareek
Most of the experts of linguistics accept that Sanskrit is the most scientific, logical & systematic language. Sanskrit is the precious gem of the past and the key to the future. No one doubts its scientificity and utility from linguistic point of view, but still our educational system has often failed to take effective steps for Sanskrit teaching & learning. Certainly, the National Education Policy 2020 has accepted the importance of Sanskrit language, but there is a need to be comprehensively prepared for the future Sanskrit generation and Sanskrit education. NEP 2020 will be the milestone for Sanskrit Language & soon scenario will be changed. Innovative Digital Tools are already giving their major contribution to make Sanskrit more popular among people. These tools must be used & developed more & more. Keywords NEP 2020, Digital Sanskrit, Sanskrit through Sanskrit, Sanskrit Apps, E-books, Mattur, Jhiri, Informal Study Centre, Sanskrit Speaking Course.
Sanskrit Computational Linguistics
Shubham Upadhyay
Siji Sunny , Jui Mhatre
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TJPRC Publication
Dr. N.C. Panda
QUEST JOURNALS
E Learning material
Dhananjay Vasudeo Dwivedi
srishti singh
Manji Bhadra
With cloud computing, organizations essentially buy a range of services offered by cloud service providers (CSPs). The CSP’s servers host all the client’s applications. Organizations can enhance their computing power more quickly and cheaply via the cloud than by purchasing, installing, and maintaining their own servers.
The cloud-computing model is helping organizations to scale new digital solutions with greater speed and agility—and to create value more quickly. Developers use cloud services to build and run custom applications and to maintain infrastructure and networks for companies of virtually all sizes—especially large global ones. CSPs offer services, such as analytics, to handle and manipulate vast amounts of data. Time to market accelerates, speeding innovation to deliver better products and services across the world.
Get to know and directly engage with senior mckinsey experts on cloud computing.
Brant Carson is a senior partner in McKinsey’s Vancouver office; Chandra Gnanasambandam and Anand Swaminathan are senior partners in the Bay Area office; William Forrest is a senior partner in the Chicago office; Leandro Santos is a senior partner in the Atlanta office; Kate Smaje is a senior partner in the London office.
Cloud computing came on the scene well before the global pandemic hit, in 2020, but the ensuing digital dash helped demonstrate its power and utility. Here are some examples of how businesses and other organizations employ the cloud:
That’s not to mention experiences we all take for granted: using apps on a smartphone, streaming shows and movies, participating in videoconferences. All of these things can happen in the cloud.
Learn more about our Cloud by McKinsey , Digital McKinsey , and Technology, Media, & Telecommunications practices.
Going back a few years, legacy infrastructure dominated IT-hosting budgets. Enterprises planned to move a mere 45 percent of their IT-hosting expenditures to the cloud by 2021. Enter COVID-19, and 65 percent of the decision makers surveyed by McKinsey increased their cloud budgets . An additional 55 percent ended up moving more workloads than initially planned. Having witnessed the cloud’s benefits firsthand, 40 percent of companies expect to pick up the pace of implementation.
The cloud revolution has actually been going on for years—more than 20, if you think the takeoff point was the founding of Salesforce, widely seen as the first software as a service (SaaS) company. Today, the next generation of cloud, including capabilities such as serverless computing, makes it easier for software developers to tweak software functions independently, accelerating the pace of release, and to do so more efficiently. Businesses can therefore serve customers and launch products in a more agile fashion. And the cloud continues to evolve.
Cost savings are commonly seen as the primary reason for moving to the cloud but managing those costs requires a different and more dynamic approach focused on OpEx rather than CapEx. Financial-operations (or FinOps) capabilities can indeed enable the continuous management and optimization of cloud costs . But CSPs have developed their offerings so that the cloud’s greatest value opportunity is primarily through business innovation and optimization. In 2020, the top-three CSPs reached $100 billion in combined revenues—a minor share of the global $2.4 trillion market for enterprise IT services—leaving huge value to be captured. To go beyond merely realizing cost savings, companies must activate three symbiotic rings of cloud value creation : strategy and management, business domain adoption, and foundational capabilities.
The pandemic demonstrated that the digital transformation can no longer be delayed—and can happen much more quickly than previously imagined. Nothing is more critical to a corporate digital transformation than becoming a cloud-first business. The benefits are faster time to market, simplified innovation and scalability, and reduced risk when effectively managed. The cloud lets companies provide customers with novel digital experiences—in days, not months—and delivers analytics absent on legacy platforms. But to transition to a cloud-first operating model, organizations must make a collective effort that starts at the top. Here are three actions CEOs can take to increase the value their companies get from cloud computing :
Fortune 500 companies adopting the cloud could realize more than $1 trillion in value by 2030, and not from IT cost reductions alone, according to McKinsey’s analysis of 700 use cases.
For example, the cloud speeds up design, build, and ramp-up, shortening time to market when companies have strong DevOps (the combination of development and operations) processes in place; groups of software developers customize and deploy software for operations that support the business. The cloud’s global infrastructure lets companies scale products almost instantly to reach new customers, geographies, and channels. Finally, digital-first companies use the cloud to adopt emerging technologies and innovate aggressively, using digital capabilities as a competitive differentiator to launch and build businesses .
If companies pursue the cloud’s vast potential in the right ways, they will realize huge value. Companies across diverse industries have implemented the public cloud and seen promising results. The successful ones defined a value-oriented strategy across IT and the business, acquired hands-on experience operating in the cloud, adopted a technology-first approach, and developed a cloud-literate workforce.
Learn more about our Cloud by McKinsey and Digital McKinsey practices.
Some cloud services, such as server space, are leased. Leasing requires much less capital up front than buying, offers greater flexibility to switch and expand the use of services, cuts the basic cost of buying hardware and software upfront, and reduces the difficulties of upkeep and ownership. Organizations pay only for the infrastructure and computing services that meet their evolving needs. But an outsourcing model is more apt than other analogies: the computing business issues of cloud customers are addressed by third-party providers that deliver innovative computing services on demand to a wide variety of customers, adapt those services to fit specific needs, and work to constantly improve the offering.
The cloud offers huge cost savings and potential for innovation. However, when companies migrate to the cloud, the simple lift-and-shift approach doesn’t reduce costs, so companies must remediate their existing applications to take advantage of cloud services.
For instance, a major financial-services organization wanted to move more than 50 percent of its applications to the public cloud within five years. Its goals were to improve resiliency, time to market, and productivity. But not all its business units needed to transition at the same pace. The IT leadership therefore defined varying adoption archetypes to meet each unit’s technical, risk, and operating-model needs.
Legacy cybersecurity architectures and operating models can also pose problems when companies shift to the cloud. The resulting problems, however, involve misconfigurations rather than inherent cloud security vulnerabilities. One powerful solution? Securing cloud workloads for speed and agility : automated security architectures and processes enable workloads to be processed at a much faster tempo.
The talent demands of the cloud differ from those of legacy IT. While cloud computing can improve the productivity of your technology, it requires specialized and sometimes hard-to-find talent—including full-stack developers, data engineers, cloud-security engineers, identity- and access-management specialists, and cloud engineers. The cloud talent model should thus be revisited as you move forward.
Six practical actions can help your organization build the cloud talent you need :
Different industries are expected to see dramatically different benefits from the cloud. High-tech, retail, and healthcare organizations occupy the top end of the value capture continuum. Electronics and semiconductors, consumer-packaged-goods, and media companies make up the middle. Materials, chemicals, and infrastructure organizations cluster at the lower end.
Nevertheless, myriad use cases provide opportunities to unlock value across industries , as the following examples show:
The cloud is evolving to meet the industry-specific needs of companies. From 2021 to 2024, public-cloud spending on vertical applications (such as warehouse management in retailing and enterprise risk management in banking) is expected to grow by more than 40 percent annually. Spending on horizontal workloads (such as customer relationship management) is expected to grow by 25 percent. Healthcare and manufacturing organizations, for instance, plan to spend around twice as much on vertical applications as on horizontal ones.
Learn more about our Cloud by McKinsey , Digital McKinsey , Financial Services , Healthcare Systems & Services , Retail , and Technology, Media, & Telecommunications practices.
Views on cloud computing can be clouded by misconceptions. Here are seven common myths about the cloud —all of which can be debunked:
Here’s one more huge misconception: the cloud is just for big multinational companies. In fact, cloud can help make small local companies become multinational. A company’s benefits from implementing the cloud are not constrained by its size. In fact, the cloud shifts barrier to entry skill rather than scale, making it possible for a company of any size to compete if it has people with the right skills. With cloud, highly skilled small companies can take on established competitors. To realize the cloud’s immense potential value fully, organizations must take a thoughtful approach, with IT and the businesses working together.
For more in-depth exploration of these topics, see McKinsey’s Cloud Insights collection. Learn more about Cloud by McKinsey —and check out cloud-related job opportunities if you’re interested in working at McKinsey.
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Essay on Computer in Sanskrit. This post is an essay on Computer in Sanskrit. सङ्गणकः इति विषये संस्कृते निबन्धः। कंप्यूटर / संगणक पर संस्कृत निबंध। English and Hindi translation is also given for better understanding. ...
कम्प्यूटर पर संस्कृत निबंध। Computer Essay in Sanskrit. ... Popular Sanskrit Slokas. उपदेश श्लोक संस्कृत स्लोगन संस्कृत अनुवाद संस्कृत गिनती
कम्प्यूटर पर संस्कृत निबंध। Computer Essay in Sanskrit : कम्प्यूटर शब्दः ...
आज हम इस पोस्ट में कम्प्यूटर शिक्षा पर संस्कृत निबंध लेखन करेंगे। This post is an essay on Computer Education in Sanskrit. सङ्गणकस्य इति विषये संस्कृते निबन्ध
कंप्यूटर पर संस्कृत निबंध - Sanskrit Essay on Computer A computer is a machine that can be instructed to carry out sequences of arithmetic or logical operations automatically via computer programming. Modern computers have the ability to follow generalized sets of operations, called programs.
Essay on Computer in Sanskrit Language हेलो! दोस्तों आज के आर्टिकल में हम कंप्यूटर के महत्व (Computer Essay in Sanskrit Language) के बारे में जानेंगे संस्कृत भाषा में, आज के आधुनिक युग में कंप्यूटर का ...
Concrete Efforts Good research papers and Research Dissertation/Thesis Modern translations of Indian texts of Grammatical and Navya Nyāya Preparations of Electronic Dictionaries and Text annotations Best NLP research teams and scholars trained in multi-disciplines like linguistics, computers, Sanskrit traditions Influence of Pāṇinian ...
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The application of computer in Sanskrit is evolving into a new subject, which can be termed as Sanskrit Informatics1 1 Sanskrit Informatics, P. 1 The grammatical structure of Sanskrit language is the most attractive among the other language all over the world. The systematic structure of this language is most helpful to use in computer.
Over the past three decades an increasing number of experts and well-wishers of Sanskrit are claiming that 'Sanskrit is the most suitable language for computers'. The advent of computational linguistics as a special branch functioning at the interface of computer science and linguistics together with the strong tradition of Sanskrit ...
Now this two is One or Many. "An apparent answer to the painful divisions between self and other, private and public, and inner thought and outer world.iii" Sanskrit text starts from Vedasiv, Tantra and Tarka. The term Veda originated from 4 rootwords 1. Vid (Gyaan-Relationship) 2. Vid (satta-Properties) 3.
This paper is focused on analysis of current status of research done on Sanskrit as a programming language for .These will the help us to know opportunity, scope and challenges. Result of ...
Essay on Computer In Sanskrit: कम्प्यूटर हमारी जिंदगी का अहम हिस्सा बन चुका है.स्कूल से लेकर ऑफिस तक में इसका इस्तेमाल रोजाना किया जाता है । और दैनिक कामकाज निपटाने के ...
Academia.edu is a platform for academics to share research papers. Integrating ICT in Sanskrit teaching-learning: Challenges and opportunities . × ... The first section discusses the impact of technology on today's educational scenario and the need for computer-assisted language learning. The production of language teaching materials is ...
Essay on Computer in Sanskrit: In this article we are providing कंप्यूटर पर संस्कृत ...
Sanskrit language, (from Sanskrit saṃskṛta, "adorned, cultivated, purified"), an Old Indo-Aryan language in which the most ancient documents are the Vedas, composed in what is called Vedic Sanskrit.Although Vedic documents represent the dialects then found in the northern midlands of the Indian subcontinent and areas immediately east thereof, the very earliest texts—including the ...
Find an answer to your question कम्प्यूटर पर संस्कृत निबंध। Computer Essay in Sanskrit Prashant5607 Prashant5607 16.02.2023
Use of Sanskrit in Computer Programming -Dr.Baldevanand Sagar In July 1987, Forbes magazine published news which surprised the Sanskrit scholars and orientalists. This news filled the hearts of all those who love and study Sanskrit with great joy and enthusiasm as it opened the doors to new fascinating world of Sanskrit studies.
Rigveda 10.71.1-4 Translated by Roger Woodard The Vedic Sanskrit found in the Ṛg-veda is distinctly more archaic than other Vedic texts, and in many respects, the Rigvedic language is notably more similar to those found in the archaic texts of Old Avestan Zoroastrian Gathas and Homer's Iliad and Odyssey. According to Stephanie W. Jamison and Joel P. Brereton - Indologists known for their ...
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Cloud computing is the use of comprehensive digital capabilities delivered via the internet for organizations to operate, innovate, and serve customers. It eliminates the need for organizations to host digital applications on their own servers. Group of white spheres on light blue background.
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