Skip to main content

After Gate Exam, What Next?

Gate- Gate Aptitude Test in Engineering is held in the month of January and February. Only final year students or above that can appear for this exam. After appearing for the GATE exam and scoring well, what to do next? and how to apply to reputed colleges?

After deceleration of GATE result, Students may apply to individual institutes to get their application forms. Institutes advertise for M.tech in leading newspapers from 1st April till the end of July. However, some institutes don't advertise. You have to check their particular site for admission and more details.

Admission in reputed institutes are based on GATE percentile. If your GATE percentile is 96, you can apply BITS pilani, NIITs and other colleges. Students score above 97 percentile, generally go for IITs. These percentile range may vary every year. Students score high percentile, have to face interview before getting admitted to IITs or NIITs or other reputed institutes.

PSU's has also started recruitment through GATE from 2012. And from 2013 on wards, almost every Public Sector Undertaking companies have started recruitment through GATE score. A student generally has to get rank below 1000 in AIR in their respective streams, to get call for every PSUs. Most of the PSUs follow Group Discussion round and then, interview to recruit students. 50 % are G.D and Interview and other 50% is your GATE score. But, some consider, 75% of your GATE score and 25% interview for final short list of students in their company.

Most of the PSU's application of Maharatna and Navratna companies forms are filled before the GATE exam and some of them charges too. You have to fill the form according to the seats available for your stream in that industry.

Students get percentile less than 70, don't get any score card and they have to reappear for the exam. This score card remains valid for 2 years from the deceleration of the result. But, students who are not satisfied from there exam can reappear and score better. Then, new score card will be considered as your GATE score.

*******Best of Luck for GATE*******
Labels:

Comments

Post a Comment

Popular posts from this blog

Buzzer interface with 8051 microcontroller

Buzzer  is a electronic device that converts the electronic signal into buzzing noise, that is applied to it. It can be used as electronic bell or as quiz buzzer in many applications around us. Here, i world like to discuss the interfacing of a small buzzer with 8051 microcontroller and how different projects can be constructed. Buzzer Interfacing: This project shows the interface with AT89S52 microcontroller to a buzzer. When a push button is pressed, the buzzer will get ON and OFF ( number of times set in the code ) and then stops. Circuit Diagram: - The port P1 of the microcontroller is connected to buzzer. This type of connection is possible, if the current requirements of the buzzer is not more than 20mA. The output is in current source mode so that buzzer will turn ON when the output of the port is logic LOW. Switch is connected to port P3 which remains at logic HIGH by pull up resistor.  Code: #include "REG52.h" #define buz P1 sbit SW=P3^0; long i...
14 comments
Read more

Comparison Chart Between 8051, 8052, 8031and 8751

8051 is a popular 8-bit microcontroller and has been used in many applications since Intel introduced it. Many 8051 architecture are produced by Triscend, Intel, Atmel, Philips, Infineon (Siemens), ISSI, and Max Corp. Today, 8051 microcontrollers may not be popular but, the 8051 architecture is still popular and employed in thousands of embedded applications. This 8-bit architecture has been different segments such as 8052, 8051, 8751 and 8031 . 8052 is the super-set of 8051 and 8031 is the memory-less microcontroller hence, it has interfaced with external ROM. Whereas, 8751 chip has only 4Kbytes of on chip UV-EPROM. Everyone knows about the general 40-pin microcontroller i.e. 8051 introduced by Intel in 1980s and consists of serial communication pins, Timer, Interrupts, RAM, ROM. It has 4 ports and each port has 8 pins, total 32 pins and other 8 pins for other purposes. 8052 is the super-set of 8051 that consists of 8K bytes of internal RAM (4K in 8051), 256 by...
5 comments
Read more

Different ways to generate delays in 8051

The delay length in 8051 microcontroller depends on three factors: The crystal frequency the number of clock per machine the C compiler. The original 8051 used 1/12 of the crystal oscillator frequency as one machine cycle. In other words, each machine cycle is equal to 12 clocks period of the crystal frequency connected to X1-X2 pins of 8051. To speed up the 8051, many recent versions of the 8051 have reduced the number of clocks per machine cycle from 12 to four, or even one. The frequency for the timer is always 1/12th the frequency of the crystal attached to the 8051, regardless of the 8051 version. In other words, AT89C51, DS5000, and DS89C4x0 the duration of the time to execute an instruction varies, but they all use 1/12th of the crystal's oscillator frequency for the clock source. 8051 has two different ways to generate time delay using C programming, regardless of 8051 version. The first method is simply using Loop   program function in which Delay() funct...
5 comments
Read more