Advances in Computer Science and Mathematics provide us today with an unprecedented potential for scientific discovery and engineering innovation
Computational Science integrates these advances leading to validated, verifiable and efficient simulation, analysis and optimization of real world problems.
Research in the Chair of Computational Science is in the areas of: multiscale modeling and simulation, high performance computing and bio-inspired optimization. Applications range from nanofluidics, to cancer induced angiogenesis and artificial fish schools.
Desktops:
1 |
Intel P4 Systems |
P4/80GB HD/Intel 945GCR/512MB DDR |
2 |
Intel P4 Systems |
Core i3/500GB HD/Intel DG51PR/2GB DDR3 |
3 |
White Wipro |
P4/80GB HD/Intel915/1GB DDR2 |
4 |
Black Wipro Systems |
Core2Duo/160GB HD/Intel 945GCR/1 GB DDR2 |
5 |
Intel Dual Core systems |
Dual Core/160GB HD/Intel DG31GL/1GB DDR2 |
6 |
Intel Core2Duo LCD monitors |
Core2Duo/160GB HD/Intel DG31PR/2 GB DDR2 |
7 |
Intel Core2Duo LCD monitors |
Lenovo/160GB HD/4 GB DDR2 |
Softwares:
1. Open Source : Fedora 14, Netbeans, Turbo c++ , Acrobat Reader, Open Office
2. Licensed : Windows XP, Window 7.
Labs conducted:
1. DAA LAB:
This course will enable students to design and implement various algorithms in JAVA , Employ various design strategies for problem solving, Measure and compare the performance of different algorithms.Design, develop, and implement the specified algorithms using Java language under LINUX /Windows environment.Netbeans/Eclipse IDE tool can be used for development and demonstration.
2. PCD LAB:
Demonstration of Personal Computer and its Accessories. Demonstration and Explanation on Disassembly and Assembly of a Personal Computer. Students have to prepare a write-up on the same and include it in the Lab record and evaluated.
Laboratory Session-1: Write-up on Functional block diagram of Computer, CPU, Buses, Mother Board, Chip sets, Operating System & types of OS, Basics of Networking & Topology and NIC.
Laboratory Session-2: Write-up on RAM, SDRAM, FLASH memory, Hard disks, Optical media, CD-ROM/R/RW, DVDs, Flash drives, Keyboard, Mouse, Printers and Plotters. Introduction to flowchart, algorithm and pseudo code.
Desktops:
1 |
Intel P3 Systems |
P3/5GB & 20GB HD/Intel P3 chipset 845 MB/128MB SD |
2 |
Intel P4 Systems |
P4/80GB HD/Intel 945DCR MB/512MB DDR |
2 |
Intel P4 Systems |
P4/80GB HD/Intel 945GCR/512MB DDR |
3 |
Intel Dual Core systems |
Dual Core/160GB HD/Intel DG31GL/1GB DDR2 |
4 |
Intel Core2Duo LCD monitors |
Core2Duo/160GB HD/Intel DG31PR/2 GB DDR2 |
5 |
Intel Core2Duo LCD monitors |
Core i3/500GB HD/Intel DG51PR/2GB DDR3 |
6 |
Intel Core2Duo LCD monitors |
Lenovo/160GB HD/4 GB DDR2 |
7 |
Intel Core2Duo LCD monitors |
Dell/160GB HD/4 GB DDR2 |
Softwares:
1. Open Source : Fedora 14, Turbo c++ , Acrobat Reader, Open Office
2. Licensed : Windows XP.
3. KITS:
Labs conducted:
1. MP LAB:
This course will enable students to provide practical exposure to the students on microprocessors, design and coding knowledge on 80x86 family/ARM. To give the knowledge and practical exposure on connectivity and execute of interfacing devices with 8086/ARM kit like LED displays, Keyboards, DAC/ADC, and various other devices. Demonstration and Explanation hardware components and Faculty in-charge should explain 8086 architecture, pin diagram in one slot. The second slot, the Faculty in-charge should explain instruction set types/category etc. Students have to prepare a write-up on the same and include it in the Lab record and to be evaluated.
Laboratory Session-1: Write-up on Microprocessors, 8086 Functional block diagram, Pin diagram and description. The same information is also taught in theory class; this helps the students to understand better.
Laboratory Session-2: Write-up on Instruction group, Timing diagrams, etc. The same information is also taught in theory class; this helps the students to understand better.
2. USP LAB :
This course will enable students to understand the POSIX Architecture, File systems and use of basic Commands. Use of editors and Networking commands. Understand Shell Programming and to write shell scripts. Understand and analyze POSIX System calls, Process Creation, Control & Relationship.
Desktops:
1 |
Intel P3 Systems |
P3/5GB & 20GB HD/Intel P3 chipset 845 MB/128MB SD |
2 |
HP Company server |
Dual Core/160GB HD/Intel DG31GL/2GB DDR2 |
Softwares:
1. Open Source : Fedora 14, Turbo c++ , Acrobat Reader, Open Office
2. Licensed : Windows XP, Visual Studio.
Labs conducted:
1. CG LAB :
Understand and explain the mathematical and theoretical principles of computer graphics eg: To draw basic objects like lines, triangles and polygons using opengl built-in functions.Use matrix algebra in computer graphics and implement fundamental algorithms and transformations involved in viewing models. Write basic but complete graphics software systems projection models, illumination models and handling of hidden surfaces and clipping in computer graphics. Analyze and evaluate the use of computer graphics methods in practical applications and describe effects such as texture mapping, bump mapping and antialiasing. Apply computer graphics techniques to creating aesthetic effect.
Desktops:
1 |
Intel Dual Core systems |
Dual Core/160GB HD/Intel DG31GL/1GB DDR2 |
Hardware demo purpose
1 |
Intel P4 Systems |
P4/80GB HD/Intel 945GCR/512MB DDR |
2 | Intel P4 System | P4/5GB & 20GB HD/Intel P4 chipset 845 MB/128MB SD |
Softwares:
1. Open Source : Fedora 14, Turbo c++ , Acrobat Reader, Open Office
2. Licensed : Windows XP, Visual Studio.
Labs conducted:
1. PCD LAB:
Demonstration of Personal Computer and its Accessories. Demonstration and Explanation on Disassembly and Assembly of a Personal Computer. Students have to prepare a write-up on the same and include it in the Lab record and evaluated.
Laboratory Session-1: Write-up on Functional block diagram of Computer, CPU, Buses, Mother Board, Chip sets, Operating System & types of OS, Basics of Networking & Topology and NIC.
Laboratory Session-2: Write-up on RAM, SDRAM, FLASH memory, Hard disks, Optical media, CD-ROM/R/RW, DVDs, Flash drives, Keyboard, Mouse, Printers and Plotters. Introduction to flowchart, algorithm and pseudo code.
The Department of CSE has its own Digital Library which was Commisioned from the year 2016 The Library consist of more than 1300 books of various tittles and volumes