2021-04-02

Corona App launched by VMMYGOVT

 STAY HOME.
SAVE LIVES.
Help stop coronavirus
1
STAYhome

2
KEEPa safe distance

3
WASHhand often

4
COVERyour cough

5
SICKCall the helpline

What is corona virus : Corona viruses are a large family of viruses which may cause illness in animals or humans. In humans, several coronaviruses are known to cause respiratory infections ranging from the common cold to more severe diseases such as Middle East Respiratory Syndrome (MERS) and Severe Acute Respiratory Syndrome (SARS). The most recently discovered coronavirus causes coronavirus disease COVID-19. 

Is Coronavirus (COVID-19) Dangerous to Children?

There seem to be far fewer cases of the virus reported in children. Most kids with the infection caught it from someone they lived with or a family member. The virus seems to usually cause a milder infection in children than in adults or older people.
Aarogya App:
The Aarogya Setu app has over 5 million downloads on Google Play Store. Arnab Kumar, Program Director of Frontier Technologies at NITI Aayog, has also tweeted that the app has actually managed to gain close to 8 million installs in just three days of launch. The App Store does not reveal the number of installs of the app, but Aarogya Setu is on the top spot in the Health and Fitness section, apart from being on the top spot in the Free Apps section.
Aarogya Setu is a mobile application developed by the Government of India to connect essential health services with the people of India in our combined fight against COVID-19. The App is aimed at augmenting the initiatives of the Government of India, particularly the Department of Health, in proactively reaching out to and informing the users of the app regarding risks, best practices and relevant advisories pertaining to the containment of COVID-19.
The Corona App will be available for both Android and iOS users Here is how you can download.

2021-03-26

Computer Science And Technology

Computer science, the study of computers and computing, including their theoretical and algorithmic foundations, hardware and software, and their uses for processing information. The discipline of computer science includes the study of algorithms and data structures, computer and network design, modeling data and information processes, and artificial intelligence. Computer science draws some of its foundations from mathematics and engineering and therefore incorporates techniques from areas such as queuing theory, probability and statistics, and electronic circuit design. Computer science also makes heavy use of hypothesis testing and experimentation during the conceptualization, design, measurement, and refinement of new algorithms, information structures, and computer architectures.

Operating Systems:

An operating system is a specialized collection of software that stands between a computer’s hardware architecture and its applications. It performs a number of fundamental activities such as file system management, process scheduling, memory allocation, network interfacing, and resource sharing among the computer’s users. Operating systems have evolved in their complexity over time, beginning with the earliest computers in the 1960.

With early computers, the user typed programs onto punched tape or cards, which were read into the computer, assembled or compiled, and run. The results were then transmitted to a printer or a magnetic tape. These early operating systems engaged in batch processing; i.e., handling sequences of jobs that are compiled and executed one at a time without intervention by the user. Accompanying each job in a batch were instructions to the operating system (OS) detailing the resources needed by the job, such as the amount of CPU time required, the files needed, and the storage devices on which the files resided. From these beginnings came the key concept of an operating system as a resource allocate. This role became more important with the rise of multi programming, in which several jobs reside in the computer simultaneously and share resources, for example, by being allocated fixed amounts of CPU time in turn. More sophisticated hardware allowed one job to be reading data while another wrote to a printer and still another performed computations. The operating system thus managed these tasks in such a way that all the jobs were completed without interfering with one another.

The advent of time sharing, in which users enter commands and receive results directly at a terminal, added more tasks to the operating system. Processes known as terminal handlers were needed, along with mechanisms such as interrupts (to get the attention of the operating system to handle urgent tasks) and buffers (for temporary storage of data during input/output to make the transfer run more smoothly). Modern large computers interact with hundreds of users simultaneously, giving each one the perception of being the sole user.

Another area of operating system research is the design of virtual memory. Virtual memory is a scheme that gives users the illusion of working with a large block of contiguous memory space (perhaps even larger than real memory), when in actuality most of their work is on auxiliary storage (disk). Fixed-size blocks (pages) or variable-size blocks (segments) of the job are read into main memory as needed. Questions such as how much main memory space to allocate to users and which pages or segments should be returned to disk (“swapped out”) to make room for incoming pages or segments must be addressed in order for the system to execute jobs efficiently.

The first commercially viable operating systems were developed by IBM in the 1960 and were called OS/360 and DOS/360. Unix was developed at Bell Laboratories in the early 1970 and since has spawned many variants, including Linux, Berkeley Unix, GNU, and Apple’s iOS. Operating systems developed for the first personal computers in the 1980 included IBM’s (and later Microsoft’s) DOS, which evolved into various flavors of Windows. An important 21st-century development in operating systems was that they became increasingly machine-independent.


2021-03-21

Irctc GNWL/WL/RAC/PQWL Meaning

 

All about train ticket and berth status:

The advance booking for Indian train ticket opens 120 days before the date of journey. Tickets can be booked both offline at Passenger Reservation System (PRS) or online using irctc website. Ticket booked online can be an e-ticket ( which is a print-out / sms) or an i-ticket wherein the PRS ticket is couriered to the passenger.

All the tickets issued have a unique 10-digit PNR (Passenger Name Record) which you should quote for any correspondence regarding your ticket / journey. The ticket also contains all the other journey details like train number, journey date, travel class, origin, destination, ticket status, berth details for confirmed tickets, passenger details etc. Maximum of six passengers can travel through one ticket. But just having a ticket does not guarantee that your journey is confirmed. It all depends on the ticket status. All the passengers in a ticket are assigned a ticket status which can be waiting (WL), RAC (a half berth), or confirmed (full berth). These are explained below in detail:

People also ask:

 PQWL: Means Pooled Quota Waiting List.

RAC : Means Reservation against Cancellation.

GNWL: Means General Waiting List,

WL:  Means This is the most common waiting list. 

Confirmed (Available): Means In this case the passenger gets a full berth for the journey

 

IRCTC TICKET BOOK LINK 

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