CV Raman Global University offers different engineering courses to its students. Starting from core disciplines of mechanical, civil and electrical to more specialized fields of thermal, production and mechatronics engineering, CV Raman Global University has a diverse portfolio of courses. The students are given the opportunity to gain theoretical as well as practical knowledge while pursuing their engineering degree. With M.Tech programmes also on offer, CV Raman Global University gives the chance to students of gaining more in depth knowledge and specialization in their area of interest. This diversity in course structure is a reason why CV Raman Global University is a leading engineering institution of India.

One of the core disciplines that the university offers is that of civil engineering. Civil engineers deal with the design and construction of new buildings and structures. Their main concern is with the planning and creation of new commercial and residential spaces. With the population growing, the skills of well-educated and highly skilled civil engineers are growing. CV Raman Global University also trains its students to become leaders in their respective field of work.  As future civil engineers who are going to be employed in the construction industry and who will take up the responsibility to build new and advanced structures, the students of CV Raman Global University are trained and prepared to use different planning and designing software that make a civil engineer’s work easy. As the construction of new buildings and structures continues to be more and more challenging, the need to use design, plan and analysis software is becoming prominent for the civil engineers. This is because the land on which structures are supposed to be built has a diverse topography and needs to be analyses thoroughly before planning an approach to construction. With every new construction project and a change of location, there are changes to the construction process and these are facilitated by modelling and analysis software that are most frequently used by civil engineers.

Here is the list of common software that are used by civil engineers in the process if construction-

  1. Civil 3D-

The Civil 3D modelling software is a modelling solution that makes structural designing plan and documentation that underpins Computer-Aided Design (CAD) and Building Information Modelling (BIM) work processes.

With the AutoCAD Civil 3D, it straightforwardly ventures tasks, keeps up significance in cycles and information, and it gives a super-brisk reaction to any changes made to the model by the engineer. Civil 3D is an imaginative software program utilized by Civil engineers to plan, design, and oversee structural designing tasks. These tasks fall under the three principal classes of land advancement, water, and transportation projects; and can incorporate Construction Area Development, Structural Engineering, Road Engineering, River Dam Development, Harbor Port Construction, Canals, Embankments, and considerably more. The unique plan activities of the product license quicker advancement of options by means of model-based plan options.  AutoCAD Civil 3D causes you to arrange project information, make and investigate surfaces, make block formats, etc.  


The HEC-HMS model reproduces precipitation spill over measures in a dendritic watershed. The model reproduces the individual motions of the hydrologic cycle, for example, snow-melting, invasion, evapotranspiration, base stream, and channel steering. The model is appropriate for various examinations, for example, flood mitigation plans, repository spillway plan, streamflow estimating, metropolitan seepage, future urbanization impacts, water quality, disintegration and silt transport.

Key highlights of the model incorporate different techniques to show actual cycles of overflow where the client chooses a suitable strategy dependent on information accessibility and necessities; adjustment utilizing an enhancement calculation; vulnerability investigation; and GIS abilities. A user-friendly model, HEC-GeoHMS, takes into account GIS examination with the model.

The program is a comprehensive and cohesive modelling and displaying software equipped to address various watersheds. A model of the watershed is built by isolating the water cycle into reasonable pieces and building limits around the watershed of interest. Any mass or energy motion in the cycle would then be addressed with a numerical model. Much of the time, a few model decisions are accessible for addressing each motion. Each numerical model remembered for the program is appropriate in various conditions. Settling on the right decision requires information on the watershed, the objectives of the hydrologic study, and designing judgment.


 HEC-RAS is a software program that models the hydrodynamics of water course through common waterways and different channels. Before the 2016 update to Version 5.0, the program was one-dimensional, implying that there is no immediate demonstrating of the water powered impact of cross segment shape changes, twists, and other two-and three-dimensional parts of stream. The arrival of Version 5.0 of this software presented two-dimensional demonstrating of stream. The program was created by the United States Army Corps of Engineers to deal with the streams, harbors, and other public works under their ward; it has discovered wide acknowledgment by numerous others since its public delivery works in 1995. The Hydrologic Engineering Center (HEC) in Davis, California, built up the River Analysis System (RAS) to help pressure driven designers in water stream examination and floodplain assurance. It incorporates various information passage capacities, pressure driven investigation segments, information stockpiling and the executive’s abilities, and diagramming and revealing capacities.

The essential computational technique of HEC-RAS for consistent stream depends on the arrangement of the one-dimensional energy condition. Energy misfortunes are assessed by erosion and withdrawal/extension. The pressure condition might be utilized in circumstances where the water surface profile is quickly fluctuated. These circumstances incorporate pressure driven bounces, water power of extensions, and assessing profiles at waterway intersections. For temperamental stream, HEC-RAS settles the full, dynamic, 1-D Saint Venant Equation utilizing an implied, limited contrast technique.

HEC-RAS is prepared to show an organization of channels, a dendritic framework or a solitary waterway reach. Certain disentanglements should be made to demonstrate some unpredictable stream circumstances utilizing the HEC-RAS one-dimensional methodology. It is fit for demonstrating subcritical, supercritical, and blended stream system alongside the impacts of extensions, courses, weirs, and constructions.

HEC-RAS is a software program for demonstrating water coursing through transport systems of open channels and registering water surface profiles. HEC-RAS discovers specific business application in floodplain management. A portion of the extra uses are: extension and duct plan and investigation, levee studies, and channel changes. It tends to be utilized for dam break examination; however other demonstrating strategies are as of now more broadly acknowledged for this reason.

 Microsoft Project

Microsoft Project is a software program, created and sold by Microsoft. It is intended to help a project manager in building up a timetable, relegating assets to assignments, following progress of a project, dealing with the spending plan, and examining the remaining tasks yet to be completed on the project. Microsoft Project was the organization’s third Microsoft Windows-based application. Within a couple of years of its release, it turned into the prevailing computer-based project management software.

It is accessible presently in two versions, Standard and Professional. Microsoft Project and Microsoft Project Server are the foundations of the Microsoft Office enterprise performance management (EPM) software. The software makes financial plans dependent on task allotment and asset rates. As assets are allotted to subordinates and assigned tasks are assessed, the program ascertains the expense of the project. Assets available to the engineer (individuals, gear and materials) can be divided among projects utilizing a shared asset pool. Every asset can have its own schedule, which characterizes on what days and for what purpose an asset is accessible. Asset utilization rates are utilized to figure asset task costs which are moved up and summed up at the asset level. Every asset can be doled out to various subordinates in different plans and each errand can be given to numerous assets. The application plans task flow dependent on the asset accessibility as characterized in the asset schedules.


StormCAD furnishes stormwater experts with cutting edge instruments to viably convey great storm sewer plan with lower capital speculation. In testing times, financial plans for foundation projects are tight. StormCAD encourages you to be pretty much as compelling as conceivable on storm sewer development projects. The product gives street and site creators, stormwater ace organizers, and civil engineers with cutting edge apparatuses to successfully convey top notch plan with limited capital speculations. In testing times, spending plans for foundation projects are tight.


WaterCAD is a simple to-utilize pressure driven and water quality displaying application for water appropriation frameworks. Businesses, districts, and designing firms trust WaterCAD as a dependable, asset saving, choice assisting application for their water foundation. From fire stream and constituent fixation investigations, to energy cost management and siphon displaying, WaterCAD helps civil engineers and organisations in dissecting, planning, and developing water dispersion systems. The independent interface offers unrivaled adaptability with simple to-utilize model format devices, different foundation creation. The software also offers transformation utilities from CAD, GIS, and other information bases, and limitless fix and re-try design. You can assemble and spread-out models with designing accuracy inside a climate in which the project is based.