VIT Bhopal University | M.Tech Admissions 2025
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NIT Durgapur GATE Cutoff 2025 - Aspirants will be able to check the NT Durgapur GATE 2025 cutoff on the official website, ccmt.admissions.nic.in. The NIT Durgapur MTech cutoff will be provided in this article as well. The authority will conduct the CCMT counselling based on GATE 2025 scores. The GATE cutoff for NIT Durgapur 2025 will be available in the form of opening and closing marks. The cutoff of GATE will vary for each course and category.
Only those who clear GATE will be provided MTech admission at NIT Durgapur through the CCMT counselling process. The counselling conducting body will consider factors like the availability of seats, previous year cutoff trends, choices of applicants and difficulty level of the GATE exam while determining the GATE cutoff for NIT Durgapur. Eligible candidates who score higher marks than the NIT Durgapur cutoff for MTech can get admission to the college. For more details, check the complete article.
Aspirants will be able to check the NIT Durgapur GATE 2025 cutoff on this page after the official release. NIT Durgapur will provide admission to MTech courses on the basis of GATE scores. Candidates who will participate in CCMT and have GATE marks within the specified range will be able to gain admission to the college.
Candidates can refer to the following table to learn about the previous year's GATE cutoff for NIT Durgapur. This information will help the candidates understand the NIT Durgapur MTech cutoff over the years.
Programme | Group | Opening Marks | Closing marks |
Structural Engineering | G1 | 407 | 458 |
Machine Design | G1 | 380 | 481 |
Fluid Mechanics and Heat Transfer | G1 | 351 | 428 |
Geotechnical Engineering | G1 | 359 | 382 |
Microelectronics & VLSI | G1 | 558 | 608 |
Electrical Engineering (Instrumentation and Control) | G1 | 398 | 409 |
Environmental Science & Technology | G1 | 383 | 430 |
Power System | G1 | 385 | 407 |
Power Electronics & Machine Drives | G1 | 433 | 464 |
Biotechnology | G1 | 499 | 557 |
Next Generation Communication and Networks | G1 | 459 | 548 |
Operations Research | G1 | 494 | 652 |
Computer Science & Engineering | G1 | 580 | 628 |
Artificial Intelligence & Data Science | G1 | 621 | 712 |
Thermal Engineering | G1 | 367 | 399 |
Course Name | Category | Maximum score | Minimum Score |
Biotechnology | Open | 551 | 450 |
EWS | 358 | 358 | |
OBC-NCL | 388 | 341 | |
SC | 299 | 225 | |
Chemical Engineering | Open | 364 | 351 |
OBC-NCL | - | - | |
SC | - | - | |
Environmental Science & Technology | Open | 372 | 351 |
EWS | - | - | |
OBC-NCL | 344 | 321 | |
SC | 263 | 219 | |
ST | - | - | |
Fluid Mechanics and Heat Transfer | Open | 437 | 409 |
EWS | - | - | |
OBC-NCL | 345 | 330 | |
SC | - | - | |
Geotechnical Engineering | Open | 386 | 351 |
EWS | 339 | 337 | |
OBC-NCL | 343 | 329 | |
SC | 303 | 277 | |
ST | 263 | 263 | |
Machine Design | Open | 433 | 368 |
EWS | 449 | 406 | |
OBC-NCL | 368 | 334 | |
SC | 266 | 265 | |
ST | 263 | 263 | |
Advanced Material Science & Technology | Open | 389 | 353 |
OBC-NCL | 318 | 318 | |
SC | - | - | |
Microelectronics & VLSI | Open | 571 | 513 |
EWS | 505 | 497 | |
OBC-NCL | 509 | 480 | |
SC | 364 | 330 | |
ST | 289 | 289 | |
Metallurgy and Materials Technology | Open | 508 | 366 |
EWS | - | - | |
OBC-NCL | - | - | |
Operations Research | Open | 549 | 487 |
EWS | 408 | 408 | |
OBC-NCL | 442 | 397 | |
SC | 296 | 292 | |
ST | 265 | 265 | |
Power Electronics & Machine Drives | Open | 396 | 354 |
EWS | - | - | |
OBC-NCL | 339 | 310 | |
SC | - | - | |
Structural Engineering | Open | 492 | 416 |
EWS | 363 | 341 | |
OBC-NCL | 402 | 382 | |
SC | 357 | 304 | |
ST | 268 | 264 | |
Thermal Engineering | Open | 440 | 355 |
EWS | - | - | |
OBC-NCL | 349 | 330 | |
SC | 265 | 265 | |
ST | 255 | 255 | |
Power System | Open | 442 | 350 |
EWS | - | - | |
OBC-NCL | - | - | |
SC | 231 | 214 | |
ST | 260 | 260 | |
Computer Science & Engineering | Open | 577 | 506 |
EWS | 502 | 472 | |
OBC-NCL | 502 | 451 | |
SC | 483 | 341 | |
ST | 318 | 292 |
Course Name | Category | Maximum score | Minimum Score |
Biotechnology | Open | 601 | 460 |
EWS | 443 | 332 | |
OBC-NCL | 437 | 325 | |
SC | 370 | 201 | |
Chemical Engineering | Open | 398 | 375 |
OBC-NCL | 332 | 323 | |
SC | 241 | 172 | |
Environmental Science & Technology | Open | 447 | 369 |
EWS | 395 | 390 | |
OBC-NCL | 389 | 342 | |
SC | 328 | 241 | |
ST | 232 | 232 | |
Fluid Mechanics and Heat Transfer | Open | 496 | 400 |
EWS | 417 | 402 | |
OBC-NCL | 427 | 327 | |
SC | 252 | 213 | |
Geotechnical Engineering | Open | 482 | 426 |
EWS | 420 | 354 | |
OBC-NCL | 416 | 366 | |
SC | 354 | 337 | |
Machine Design | Open | 551 | 436 |
EWS | 449 | 406 | |
OBC-NCL | 485 | 390 | |
SC | 382 | 252 | |
ST | 263 | 263 | |
Advanced Material Science & Technology | Open | ||
Open | 512 | 396 | |
OBC-NCL | 350 | 326 | |
SC | 335 | 250 | |
Microelectronics & VLSI | Open | 596 | 521 |
EWS | 529 | 507 | |
OBC-NCL | 521 | 479 | |
SC | 400 | 342 | |
ST | 371 | 313 | |
Metallurgy and Materials Technology | Open | 508 | 366 |
EWS | 333 | 333 | |
OBC-NCL | 323 | 323 | |
Operations Research | Open | 680 | 482 |
EWS | 500 | 424 | |
OBC-NCL | 515 | 405 | |
SC | 331 | 253 | |
ST | 280 | 243 | |
Power Electronics & Machine Drives | Open | 553 | 439 |
EWS | 396 | 318 | |
OBC-NCL | 500 | 371 | |
SC | 318 | 285 | |
Structural Engineering | Open | 629 | 465 |
EWS | 482 | 406 | |
OBC-NCL | 485 | 426 | |
SC | 369 | 319 | |
ST | 291 | 253 | |
Thermal Engineering | Open | 535 | 463 |
EWS | 452 | 380 | |
OBC-NCL | 448 | 402 | |
SC | 290 | 252 | |
Power System | Open | 489 | 410 |
EWS | 428 | 375 | |
OBC-NCL | 446 | 339 | |
SC | 407 | 267 | |
ST | 260 | 260 | |
Computer Science & Engineering | Open | 569 | 504 |
EWS | 517 | 363 | |
OBC-NCL | 517 | 446 | |
SC | 389 | 290 | |
ST | 286 | 249 |
Course Name | Category | Maximum score | Minimum score |
Biotechnology | Open | 624 | 487 |
EWS | 404 | 345 | |
OBC-NCL | 394 | 370 | |
SC | 296 | 185 | |
Chemical Engineering | Open | 544 | 368 |
EWS | 335 | 332 | |
OBC-NCL | 378 | 329 | |
SC | 271 | 266 | |
Environmental Science & Technology | Open | 487 | 410 |
EWS | 431 | 300 | |
OBC-NCL | 440 | 372 | |
SC | 313 | 262 | |
ST | 260 | 247 | |
Fluid Mechanics and Heat Transfer | Open | 610 | 454 |
EWS | 419 | 328 | |
OBC-NCL | 447 | 350 | |
SC | 269 | 233 | |
ST | - | - | |
Geotechnical Engineering | Open | 526 | 421 |
EWS | 436 | 386 | |
OBC-NCL | 456 | 378 | |
SC | 311 | 278 | |
ST | 260 | 231 | |
Machine Design | Open | 753 | 501 |
EWS | 436 | 320 | |
OBC-NCL | 512 | 368 | |
SC | 240 | 240 | |
ST | 292 | 251 | |
Advanced Material Science & Technology | Open | 441 | 350 |
EWS | 379 | 318 | |
OBC-NCL | 361 | 348 | |
SC | 251 | 232 | |
Microelectronics & VLSI | Open | 904 | 507 |
EWS | 547 | 431 | |
OBC-NCL | 526 | 474 | |
SC | 340 | 298 | |
ST | 283 | 283 | |
Metallurgy and Materials Technology | Open | 538 | 361 |
EWS | 371 | 328 | |
OBC-NCL | 360 | 316 | |
SC | 262 | 184 | |
ST | - | - | |
Operations Research | Open | 598 | 490 |
EWS | 449 | 432 | |
OBC-NCL | 539 | 395 | |
SC | 343 | 277 | |
ST | - | - | |
Power Electronics & Machine Drives | Open | 543 | 479 |
EWS | 479 | 400 | |
OBC-NCL | 502 | 400 | |
SC | 332 | 267 | |
Structural Engineering | Open | 566 | 485 |
EWS | 495 | 439 | |
OBC-NCL | 502 | 433 | |
SC | 389 | 329 | |
ST | 289 | 279 | |
Thermal Engineering | Open | 604 | 529 |
EWS | 457 | 419 | |
OBC-NCL | 516 | 440 | |
SC | 269 | 269 | |
ST | - | - | |
Power System | Open | 498 | 456 |
EWS | 445 | 430 | |
OBC-NCL | 456 | 388 | |
SC | 316 | 271 | |
ST | - | - | |
Telecommunication Engineering | Open | 508 | 417 |
EWS | 417 | 375 | |
OBC-NCL | 436 | 326 | |
SC | 288 | 264 | |
ST | - | - | |
Computer Science & Engineering | Open | 657 | 523 |
EWS | 531 | 450 | |
OBC-NCL | 558 | 431 | |
SC | 410 | 346 | |
ST | 286 | 259 |
Course Name | Category | Maximum score | Minimum score |
Biotechnology | Open | 880 | 354 |
EWS | 354 | 354 | |
OBC-NCL | 432 | 306 | |
SC | 481 | 286 | |
ST | 218 | 168 | |
Chemical Engineering | Open | 511 | 416 |
EWS | 424 | 373 | |
OBC-NCL | 419 | 319 | |
SC | 325 | 253 | |
Environmental Science & Technology | Open | 499 | 399* |
EWS | 428 | 395 | |
OBC-NCL | 462 | 376* | |
SC | 358 | 257* | |
ST | 256 | 246 | |
Fluid Mechanics and Heat Transfer | Open | 617 | 461* |
EWS | 516 | 392* | |
OBC-NCL | 537 | 368* | |
SC | 325 | 285 | |
Geotechnical Engineering | Open | 529 | 469* |
EWS | 458 | 384 | |
OBC-NCL | 506 | 425* | |
SC | 430 | 278 | |
ST | 275 | 253 | |
Machine Design | Open | 667 | 565 * |
EWS | 565 | 393* | |
OBC-NCL | 588 | 453* | |
SC | 386 | 305* | |
ST | 293 | 218 | |
Advanced Material Science & Technology | Open | 515 | 356* |
EWS | 494 | 470 | |
OBC-NCL | 466 | 390 | |
SC | 324 | 255 | |
Microelectronics & VLSI | Open | 641 | 511 |
EWS | 523 | 454 | |
OBC-NCL | 538 | 377* | |
SC | 377 | 255* | |
Metallurgy and Materials Technology | Open | 515 | 420* |
EWS | 419 | 356* | |
OBC-NCL | 455 | 323* | |
SC | 285 | 220* | |
ST | 71 | 71 | |
Operations Research | Open | 574 | 411* |
EWS | 505 | 426 | |
OBC-NCL | 508 | 325* | |
SC | 425 | 305* | |
ST | 263 | 255 | |
Power Electronics & Machine Drives | Open | 579 | 511* |
EWS | 532 | 464 | |
OBC-NCL | 554 | 426* | |
SC | 456 | 285* | |
ST | 285 | 241* | |
Structural Engineering | Open | 625 | 488* |
EWS | 537 | 399* | |
OBC-NCL | 525 | 447* | |
SC | 420 | 320* | |
ST | 324 | 249* | |
Thermal Engineering | Open | 625 | 523* |
EWS | 541 | 424* | |
OBC-NCL | 558 | 436* | |
SC | 390 | 247* | |
ST | 297 | 213 | |
Power System | Open | 601 | 473* |
EWS | 515 | 379* | |
OBC-NCL | 520 | 383* | |
SC | 387 | 315* | |
ST | 307 | 226* | |
Telecommunication Engineering | Open | 604 | 401* |
EWS | 490 | 369* | |
OBC-NCL | 519 | 348* | |
SC | 336 | 251* | |
ST | 271 | 243 | |
Computer Science & Engineering | Open | 659 | 437* |
EWS | 558 | 383* | |
OBC-NCL | 546 | 359* | |
SC | 457 | 325* | |
ST | 336 | 251 |
Note: * indicates GATE cutoff for a special round
Name of the Programme | Categories | Opening Marks | Closing Marks |
Advanced Material Science & Technology | Open | 582 | 463 |
EWS | 488 | 388 | |
OBC-NCL | 516 | 405 | |
SC | 319 | 311 | |
ST | - | - | |
Biotechnology | Open | 613 | 372 |
EWS | 423 | 423 | |
OBC-NCL | 470 | 316 | |
SC | 336 | 203 | |
ST | 187 | 187 | |
Chemical Engineering | Open | 451 | 362 |
OBC-NCL | 335 | 303 | |
SC | 227 | 209 | |
ST | - | - | |
Computer Science & Engineering | Open | 725 | 441 |
EWS | 581 | 489 | |
OBC-NCL | 552 | 385 | |
SC | 463 | 283 | |
ST | 337 | 271 | |
Environmental Science & Technology | Open | 607 | 456 |
EWS | 481 | 422 | |
OBC-NCL | 490 | 411 | |
SC | 333 | 296 | |
ST | 315 | 187 | |
Fluid Mechanics and Heat Transfer | Open | 625 | 414 |
EWS | 509 | 382 | |
OBC-NCL | 582 | 355 | |
SC | 343 | 228 | |
ST | - | - | |
Geotechnical Engineering | Open | 548 | 459 |
EWS | 522 | 422 | |
OBC-NCL | 502 | 396 | |
SC | 431 | 306 | |
ST | 372 | 262 | |
Machine Design | Open | 669 | 437 |
EWS | 600 | 509 | |
OBC-NCL | 593 | 407 | |
SC | 393 | 329 | |
ST | - | - | |
Metallurgy and Materials Technology | Open | 545 | 355 |
EWS | 403 | 403 | |
OBC-NCL | 454 | 452 | |
SC | 315 | 239 | |
ST | - | - | |
Microelectronics & VLSI | Open | 672 | 546 |
EWS | 603 | 426 | |
OBC-NCL | 588 | 472 | |
SC | 449 | 342 | |
ST | 323 | 323 | |
Operations Research | Open | 605 | 363 |
EWS | 515 | 417 | |
OBC-NCL | 572 | 407 | |
SC | 396 | 363 | |
ST | 289 | 270 | |
Power Electronics & Machine Drives | Open | 661 | 563 |
EWS | 584 | 513 | |
OBC-NCL | 587 | 488 | |
SC | 400 | 294 | |
ST | 291 | 291 | |
Power Systems | Open | 622 | 439 |
EWS | 591 | 439 | |
OBC-NCL | 577 | 453 | |
SC | 418 | 312 | |
ST | 262 | 262 | |
Structural Engineering | Open | 626 | 489 |
EWS | 530 | 530 | |
OBC-NCL | 552 | 396 | |
SC | 439 | 368 | |
ST | 330 | 254 | |
Telecommunication Engineering | Open | 595 | 492 |
EWS | 526 | 426 | |
OBC-NCL | 546 | 472 | |
SC | 511 | 346 | |
ST | - | - | |
Thermal Engineering | Open | 680 | 585 |
EWS | 574 | 509 | |
OBC-NCL | 616 | 407 | |
SC | 564 | 268 | |
ST | 287 | 287 |
Name of the Programme | Categories | Opening Marks | Closing Marks |
Advanced Material Science & Technology | Open | 608 | 561 |
Open PwD | 0 | 0 | |
OBC-NCL | 561 | 522 | |
OBC-NCL PwD | 0 | 0 | |
SC | 380 | 299 | |
SC PwD | 0 | 0 | |
ST | 261 | 237 | |
ST PwD | 0 | 0 | |
Biotechnology | Open | 708 | 491 |
Open PwD | 0 | 0 | |
OBC-NCL | 527 | 374 | |
OBC-NCL PwD | 0 | 0 | |
SC | 383 | 270 | |
SC PwD | 0 | 0 | |
ST | 270 | 197 | |
ST PwD | 0 | 0 | |
Chemical Engineering | Open | 444 | 366 |
Open PwD | 234 | 0 | |
OBC-NCL | 385 | 316 | |
OBC-NCL PwD | 0 | 0 | |
SC | 316 | 316 | |
SC PwD | 0 | 0 | |
ST | 0 | 0 | |
ST PwD | 0 | 0 | |
Computer Science & Engineering | Open | 814 | 525 |
Open PwD | 0 | 0 | |
OBC-NCL | 544 | 402 | |
OBC-NCL PwD | 0 | 0 | |
SC | 445 | 338 | |
SC PwD | 0 | 0 | |
ST | 344 | 263 | |
ST PwD | 0 | 0 | |
Environmental Science & Technology | Open | 568 | 532 |
Open PwD | 0 | 0 | |
OBC-NCL | 551 | 483 | |
OBC-NCL PwD | 0 | 0 | |
SC | 514 | 387 | |
SC PwD | 0 | 0 | |
ST | 291 | 291 | |
ST PwD | 0 | 0 | |
Fluid Mechanics and Heat Transfer | Open | 665 | 627 |
Open PwD | 0 | 0 | |
OBC-NCL | 644 | 576 | |
OBC-NCL PwD | 0 | 0 | |
SC | 430 | 348 | |
SC PwD | 0 | 0 | |
ST | 338 | 275 | |
ST PwD | 0 | 0 | |
Geotechnical Engineering | Open | 610 | 558 |
Open PwD | 0 | 0 | |
OBC-NCL | 548 | 507 | |
OBC-NCL PwD | 0 | 0 | |
SC | 453 | 375 | |
SC PwD | 0 | 0 | |
ST | 302 | 302 | |
ST PwD | 0 | 0 | |
Machine Design | Open | 703 | 637 |
Open PwD | 0 | 0 | |
OBC-NCL | 657 | 616 | |
OBC-NCL PwD | 0 | 0 | |
SC | 451 | 348 | |
SC PwD | 0 | 0 | |
ST | 369 | 327 | |
ST PwD | 0 | 0 | |
Metallurgy and Materials Technology | Open | 622 | 540 |
Open PwD | 0 | 0 | |
OBC-NCL | 540 | 494 | |
OBC-NCL PwD | 0 | 0 | |
SC | 348 | 289 | |
SC PwD | 0 | 0 | |
ST | 247 | 0 | |
ST PwD | 0 | 0 | |
Microelectronics & VLSI | Open | 602 | 521 |
Open PwD | 0 | 0 | |
OBC-NCL | 534 | 461 | |
OBC-NCL PwD | 0 | 0 | |
SC | 375 | 285 | |
SC PwD | 0 | 0 | |
ST | 273 | 259 | |
ST PwD | 0 | 0 | |
Operations Research | Open | 645 | 565 |
Open PwD | 0 | 0 | |
OBC-NCL | 593 | 536 | |
OBC-NCL PwD | 0 | 0 | |
SC | 374 | 323 | |
SC PwD | 0 | 0 | |
ST | 308 | 263 | |
ST PwD | 0 | 0 | |
Power Electronics & Machine Drives | Open | 657 | 543 |
Open PwD | 0 | 0 | |
OBC-NCL | 536 | 455 | |
OBC-NCL PwD | 0 | 0 | |
SC | 399 | 342 | |
SC PwD | 0 | 0 | |
ST | 353 | 353 | |
ST PwD | 0 | 0 | |
Power Systems | Open | 598 | 532 |
Open PwD | 0 | 0 | |
OBC-NCL | 558 | 459 | |
OBC-NCL PwD | 0 | 0 | |
SC | 360 | 345 | |
SC PwD | 0 | 0 | |
ST | 360 | 253 | |
ST PwD | 0 | 0 | |
Structural Engineering | Open | 677 | 578 |
Open PwD | 0 | 0 | |
OBC-NCL | 574 | 545 | |
OBC-NCL PwD | 0 | 0 | |
SC | 419 | 389 | |
SC PwD | 0 | 0 | |
ST | 337 | 293 | |
ST PwD | 0 | 0 | |
Telecommunication Engineering | Open | 548 | 494 |
Open PwD | 0 | 0 | |
OBC-NCL | 511 | 400 | |
OBC-NCL PwD | 0 | 0 | |
SC | 330 | 259 | |
SC PwD | 0 | 0 | |
ST | 259 | 259 | |
ST PwD | 0 | 0 | |
Thermal Engineering | Open | 705 | 643 |
Open PwD | 0 | 0 | |
OBC-NCL | 651 | 599 | |
OBC-NCL PwD | 0 | 0 | |
SC | 486 | 391 | |
SC PwD | 0 | 0 | |
ST | 376 | 272 | |
ST PwD | 0 | 0 |
Courses | Categories | Opening Scores | Closing Scores |
Advanced Material Science & Technology | Open | 633 | 543 |
OBC NCL | 551 | 482 | |
SC | 384 | 313 | |
ST | 257 | 221 | |
Biotechnology | Open | 692 | 467 |
OBC NCL | 489 | 326 | |
SC | 281 | 233 | |
ST | 197 | 0 | |
Chemical Engineering | Open | 470 | 367 |
OBC NCL | 328 | 0 | |
SC | 229 | 212 | |
Computer Science & Engineering | Open | 654 | 571 |
OBC NCL | 570 | 461 | |
SC | 443 | 381 | |
ST | 295 | 295 | |
Entrepreneurship and Innovations | Open | 613 | 526 |
OBC NCL | 533 | 454 | |
SC | 395 | 310 | |
ST | 335 | 164 | |
Environmental Science & Technology | Open | 554 | 554 |
Open(Pwd) | 252 | 0 | |
OBC NCL | 480 | 454 | |
SC | 385 | 328 | |
ST | 296 | 375 | |
Fluid Mechanics and Heat Transfer | Open | 669 | 624 |
OBC NCL | 634 | 551 | |
SC | 444 | 395 | |
ST | 292 | 292 | |
Geotechnical Engineering | Open | 567 | 530 |
Open(Pwd) | 370 | 0 | |
OBC NCL | 541 | 465 | |
SC | 397 | 337 | |
ST | 328 | 278 | |
Information Technology | Open | 713 | 525 |
OBC NCL | 494 | 439 | |
SC | 446 | 353 | |
ST | 282 | 278 | |
Machine Design | Open | 733 | 643 |
OBC NCL | 645 | 634 | |
SC | 486 | 444 | |
ST | 416 | 302 | |
Metallurgy and Materials Technology | Open | 615 | 536 |
OBC NCL | 555 | 477 | |
SC | 391 | 298 | |
ST | 245 | 0 | |
Microelectronics & VLSI | Open | 650 | 562 |
OBC NCL | 579 | 495 | |
SC | 439 | 303 | |
ST | 342 | 342 | |
Operations Research | Open | 677 | 581 |
OBC NCL | 606 | 505 | |
SC | 400 | 316 | |
ST | 296 | 0 | |
Power Electronics & Machine Drives | Open | 628 | 558 |
OBC NCL | 550 | 440 | |
SC | 400 | 351 | |
ST | 322 | 0 | |
Power Systems | Open | 628 | 550 |
Open(Pwd) | 368 | 368 | |
OBC NCL | 537 | 428 | |
SC | 437 | 413 | |
ST | 303 | 277 | |
Software Engineering | Open | 573 | 508 |
OBC NCL | 483 | 428 | |
SC | 418 | 336 | |
ST | 340 | 0 | |
Structural Engineering | Open | 640 | 564 |
OBC NCL | 529 | 488 | |
SC | 413 | 355 | |
ST | 368 | 278 | |
Telecommunication Engineering | Open | 606 | 544 |
Open(Pwd) | 264 | 264 | |
OBC NCL | 550 | 438 | |
SC | 381 | 307 | |
ST | 275 | 275 | |
Thermal Engineering | Open | 694 | 652 |
OBC NCL | 672 | 587 | |
SC | 662 | 444 | |
ST | 352 | 352 |
To Check GATE cutoff for other NITs
The authority will consider the following factors for determining the GATE 2025 cutoff for NIT Durgapur.
Number of Candidates.
Number of seats available at NIT Durgapur.
Difficulty level of GATE 2025.
Previous year cutoff trends.
Application Date:17 March,2025 - 19 May,2025
Application Date:17 March,2025 - 14 April,2025
Hello,
Congratulations on your GATE 2025 performance! With a GATE score of 647 and an All India Rank (AIR) of 1078 in Civil Engineering, you have a competitive profile. Admission to the M.Tech in Structural Engineering at IIT Hyderabad is highly sought after, and the required GATE scores can vary annually based on factors like applicant pool strength, seat availability, and overall performance.
While specific cutoff scores for 2025 are not yet available, we can refer to previous years' data for insight:
2024: The OBC-NCL cutoff for Structural Engineering was 689 .
2023: The OBC-NCL cutoff for Structural Engineering was 723 .
These figures suggest that the cutoff scores have been relatively high in recent years. Given your score of 647, admission to IIT Hyderabad's Structural Engineering program may be challenging.
Alternative Options to Consider:
Other IITs: Explore Structural Engineering programs at other IITs where the cutoff scores might align more closely with your GATE score.
NITs and IIITs: Institutes like NIT Warangal , NIT Trichy , and IIIT Hyderabad offer reputable M.Tech programs in Structural Engineering with potentially more accessible cutoff scores.
State Universities and Private Institutions: Consider universities such as Osmania University or JNTU Hyderabad , which have strong engineering faculties and may have different admission criteria.
Next Steps:
Research: Investigate the specific admission requirements and cutoff trends of the alternative institutions mentioned.
Application Process: Ensure you understand the application timelines and procedures for each institution, as they may differ.
While securing a seat in IIT Hyderabad's Structural Engineering program may be competitive with your current GATE score, exploring these alternative pathways can lead you to a fulfilling academic and professional journey in Civil Engineering.
Hello,
Yes, you can still apply to certain M.Tech colleges that do not require COAP for admissions. While IITs use COAP for seat allotment , many NITs, IIITs, and other institutes have their own admission processes.
NITs, IIITs, and some GFTIs admit M.Tech students through CCMT (Centralized Counseling for M.Tech) .
COAP is not required for CCMT.
The eligibility is based on the GATE cutoff for your category , but since you mistakenly applied as General, your score may not meet the General cutoff in some cases.
Some top private and state universities offer M.Tech admissions based on GATE scores but do not use COAP , such as:
BITS Pilani (Direct admission or written test)
VIT Vellore (VITMEE exam or GATE score)
Manipal University
SRM University
Shiv Nadar University
If your score meets the OBC-NCL cutoff but not the General cutoff , you can try:
Contacting GATE authorities (IISc/IITs) to check if corrections are possible for COAP registration.
Some IITs allow category correction appeals if you provide valid proof (OBC-NCL certificate before the GATE deadline).
Some PSUs (Public Sector Undertakings) recruit using GATE, and their application process is separate from COAP.
Other M.Tech programs (like sponsored seats or self-sponsored seats ) may not strictly follow COAP rules.
Check NIT/IIIT admission through CCMT.
Look into private universities with direct M.Tech admissions.
Contact IIT admission offices to ask about a correction appeal.
Explore PSU or industry-based GATE opportunities.
Hi aspirant,
Yes, you are eligible to apply for the GATE exam . GATE is generally used for admission to postgraduate programs such as MTech, M.E., and M.Sc. at top institutes in India, as well as for recruitment in Public Sector Undertakings (PSUs).
By clearing GATE, you can pursue a relevant course. Since you mentioned that you already have a B.Sc. degree in Computer Science, a Master's program in Computer Science and Technology would be an excellent fit for you.
Here are the eligibility criteria to participate in GATE:
- Candidates must have a bachelor's degree in science.
- You can also apply if you are in your third year.
- There is no minimum percentage requirement.
- There is no age limit.
Here is a guide for you to prepare for the upcoming gate exam:
https://engineering.careers360.com/articles/how-to-prepare-for-gate
Good luck with your application!
Hello,
Thapar Institute of engineering and Technology (TIET) reserves 50% of its seats for candidates who have passed their qualifying examination from schools located in punjab you are 11th and 12th grades in punjab, you are eligible for the punjab state quota at TIET regardless of your permanent residency. this quota provides an advantage in the admission process for candidates who have studied imm punjab.
With a GATE score of 549 in Data Science, you have good chances of getting into several reputed institutes. Here are some colleges where you can apply:
Top Institutes with Data Science/AI Programs
1. IIT Hyderabad – M.Tech in Data Science or AI
2. IIT Guwahati – M.Tech in Data Science
3. IIT Jodhpur – M.Tech in AI and Data Science
4. IIIT Hyderabad – M.Tech in Computer Science and Information Security (with Data Science electives)
5. IIIT Bangalore – M.Tech in Data Science
6. NIT Warangal / NIT Trichy / NIT Surathkal – M.Tech in Data Science or AI
7. University of Hyderabad – M.Tech in Data Science
A flight attendant is a professional whose primary duty is to ensure the safety and comfort of passengers during an airline flight. An individual who is pursuing a career as a flight attendant is part of the cabin crew for the plane, a team of personnel who operate a commercial, business, or even military aircraft while travelling domestically or internationally.
An individual pursuing a career as a flight attendant is specially trained for the aircraft in which he or she works since passenger safety is their foremost concern. In this article, we will discuss how to become a flight attendant in India or how to become a flight attendant after graduation.
An aerospace engineer is an individual who develops new ideas and technologies that can be used in defence systems, aviation, and spacecraft. He or she not only designs aircraft, spacecraft, satellites, and missiles but also creates test vehicles to ensure optimum functionality. Aerospace engineering is a branch of engineering that deals with the study, design, and development of aerial vehicles such as aircraft and spacecraft.
Aerospace engineering jobs deal with employees who design or build missiles and aircraft for national defence, or spacecraft. Aerospace engineering or aircraft engineering is often referred to as rocket science. The bottom line is that the person who is pursuing a career in aerospace engineering has to deal with multiple teams at different levels and work across various technologies.
A career in the aviation industry always sounds exciting. But, there is no scope for the slightest error as it may cost the lives of many people. A Flight Engineer role comes with the responsibility of monitoring the aircraft engine and control systems while in flight. Whenever the aircraft is away from the home station, he or she is required to perform pre-flight and post-flight inspections
An aircrew officer or airline commanders fly aircraft to provide transportation to passengers or cargo. The aircrew officer operates the engines of aircraft and controls to navigate and fly the airplane. The ability to learn new technologies every time and to stay up-to-date with the changes in the industry is what the aircrew officer should possess.
This could be possible through membership with professional pilot associations. The aircrew officer is also one of the highest-paid professionals and the job is quite coveted. Keep reading to find out what you need to know about how to become aircrew officer.
You may also read career as Airline Pilot.
An air hostess is a flight attendant also known as a cabin crew or steward. An air hostess undertakes several pre-flight, in-flight, and post-flight duties and is responsible for ensuring the safety and comfort of passengers on both national and international flights. A career as an air hostess might be desirable for you if you are excited about a job in which you can help people and travel to exciting places.
Air hostesses play a crucial role in the flight crew, working closely with pilots and ground personnel to provide a safe and comfortable travel experience, even beyond their hospitality responsibilities. Being flexible, having strong communication skills, and being dedicated to the comfort of passengers are all necessary for their dynamic function, which makes them essential to the entire travel experience.
An Aeronautical Engineer job comes with the responsibility of designing aircraft and thrust systems. He or she is employed in aviation, defence or civil aviation industries. Aeronautical Engineer is generally engaged in the design of aircraft and propulsion systems as well as the analysis of building materials and aircraft's aerodynamic performance. The role of an Aeronautical Engineer may involve assembling parts of aircraft, testing and maintaining them.
A Safety Manager is a professional responsible for employee’s safety at work. He or she plans, implements and oversees the company’s employee safety. A Safety Manager ensures compliance and adherence to Occupational Health and Safety (OHS) guidelines.
Are you searching for an 'airline pilot job description'? An airline pilot or airline commander flies aircraft and helicopters to provide transportation to passengers or cargo. The airline pilot operates the engines of the aircraft and controls them to navigate and fly the airplane. The ability to learn new technologies every time and to stay up-to-date with the changes in the industry is what aviators should possess. The career as airline pilot is also one of the highest-paid professionals and the job is quite coveted.
Welding Engineer Job Description: A Welding Engineer work involves managing welding projects and supervising welding teams. He or she is responsible for reviewing welding procedures, processes and documentation. A career as Welding Engineer involves conducting failure analyses and causes on welding issues.
A career as Transportation Planner requires technical application of science and technology in engineering, particularly the concepts, equipment and technologies involved in the production of products and services. In fields like land use, infrastructure review, ecological standards and street design, he or she considers issues of health, environment and performance. A Transportation Planner assigns resources for implementing and designing programmes. He or she is responsible for assessing needs, preparing plans and forecasts and compliance with regulations.
Individuals who opt for a career as an environmental engineer are construction professionals who utilise the skills and knowledge of biology, soil science, chemistry and the concept of engineering to design and develop projects that serve as solutions to various environmental problems.
A Safety Manager is a professional responsible for employee’s safety at work. He or she plans, implements and oversees the company’s employee safety. A Safety Manager ensures compliance and adherence to Occupational Health and Safety (OHS) guidelines.
A Conservation Architect is a professional responsible for conserving and restoring buildings or monuments having a historic value. He or she applies techniques to document and stabilise the object’s state without any further damage. A Conservation Architect restores the monuments and heritage buildings to bring them back to their original state.
A Structural Engineer designs buildings, bridges, and other related structures. He or she analyzes the structures and makes sure the structures are strong enough to be used by the people. A career as a Structural Engineer requires working in the construction process. It comes under the civil engineering discipline. A Structure Engineer creates structural models with the help of computer-aided design software.
Highway Engineer Job Description: A Highway Engineer is a civil engineer who specialises in planning and building thousands of miles of roads that support connectivity and allow transportation across the country. He or she ensures that traffic management schemes are effectively planned concerning economic sustainability and successful implementation.
Are you searching for a Field Surveyor Job Description? A Field Surveyor is a professional responsible for conducting field surveys for various places or geographical conditions. He or she collects the required data and information as per the instructions given by senior officials.
Individuals who opt for a career as geothermal engineers are the professionals involved in the processing of geothermal energy. The responsibilities of geothermal engineers may vary depending on the workplace location. Those who work in fields design facilities to process and distribute geothermal energy. They oversee the functioning of machinery used in the field.
A geologist attempts to comprehend the historical backdrop of the planet we live on, all the more likely to anticipate the future and clarify current events. He or she analyses the components, deployments, results, physical characteristics, and past of the planet. A geologist examines the landforms and landscapes of the earth in relation to the geology, climatic, and human processes that have shaped them.
A geologist studies earth procedures, for example, seismic tremors, avalanches, floods, and volcanic eruptions to review land and draw up safe structure plans. When he or she researches earth materials, explores metals and minerals, yet in addition search for oil, petroleum gas, water, and strategies to extricate these.
Energy efficiency engineering is a broad field of engineering which deals with energy efficiency, energy services, facility management, plant engineering, and sustainable energy resources. Energy efficiency engineering is one of the most recent engineering disciplines to emerge. The field combines the knowledge and understanding of physics, chemistry, and mathematics, with economic and environmental engineering practices. The main job of individuals who opt for a career as an energy performance engineer is to find the most efficient and sustainable path to operate buildings and manufacturing processes.
Individuals who opt for a career as energy performance engineers apply their understanding and knowledge to increase efficiency and further develop renewable sources of energy. The energy efficiency engineers also examine the use of energy in those procedures and suggest the ways in which systems can be improved.
A career as a Petroleum engineer is concerned with activities related to producing petroleum. These products can be in the form of either crude oil or natural gas. Petroleum engineering also requires the exploration and refinement of petroleum resources. Therefore, a career as a petroleum engineer comes up with oil and gas onshore jobs. There are also desk jobs in the petroleum industry. In layman’s terms, a petroleum engineer is a person who finds the best way to drill and extract oil from oil wells. Individuals who opt for a career as petroleum engineer also tries to find new ways to extract oil in an efficient manner.
A career as Transportation Planner requires technical application of science and technology in engineering, particularly the concepts, equipment and technologies involved in the production of products and services. In fields like land use, infrastructure review, ecological standards and street design, he or she considers issues of health, environment and performance. A Transportation Planner assigns resources for implementing and designing programmes. He or she is responsible for assessing needs, preparing plans and forecasts and compliance with regulations.
A career as a civil engineer is of great importance for the infrastructural growth of the country. It is one of the most popular professions and there is great professional as well as personal growth in this civil engineering career path. There is job satisfaction in this civil engineering career path, but it also comes with a lot of stress, as there are multiple projects that need to be handled and have to be completed on time. Students should pursue physics, chemistry and mathematics in their 10+2 to become civil engineers.
A career as a Transportation Engineer is someone who takes care of people's safety. He or she is responsible for designing, planning and constructing a safe and secure transportation system. The transportation sector has seen a huge transformation and is growing day by day and improving every day.
As a Transport Engineer, he or she needs to solve complex problems such as accidents, costs, traffic flow, and statistics. A Transport Engineer also collaborates for projects with some other companies.
A loco pilot or locomotive pilot is a professional responsible for operating trains. He or she starts, stops, or controls the speed of the train. A locomotive pilot ensures that the train operates according to time schedules and signals. These loco pilots are responsible for carrying people and products to distinct destinations.
A loco pilot has thorough knowledge and understanding of the railway operations, rules, regulations, protocols, and measures to take in times of emergency. Their role is crucial in ensuring passenger and freight trains' smooth and safe operation. Here, in this article, we will discuss everything on how to how to become a loco pilot.
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