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Students from different cities can apply for Admission
Rawalpindi, Islamabad, Lahore, Karachi, Gilgit, Skardu, Ghangche, taxila, Shigar, Astore, Diamer, Ghizer, Kharmang, Gultari, Rondo, Hunza Nagar, Gupi, Azad Jammu and Kashmir, Muzaffarabad, Mirpur, Bhimber, Kotli, Rawlakot, Bagh, Bahawalpur, Bhakkar, Chakwal, Chiniot, Dera Ghazi Khan, Faisalabad, Gujranwala, Gujrat, Hafizabad, Jhang, Jhelum, Kasur, Khanewal, Khushab, Layyah, Lodharan, Mandi-Bahuddin, Mianwali, Multan, Muzaffargarh, Nankana Sahib, Narowal, Okara, Pakpattan, Rahim Yar Khan, Rajanpur, Sahiwal, Sargodha, Sheikhupura, Sialkot, Toba tek Singh, Vehari, Attock, Taxila, Wah Cantt, Rawalpindi, Balochistan, Khyber-Pakhtunkhwa, Punjab, Sindh, Gilgit Baltistan, Turbat, Sibi, Chaman, Lasbela, Zhob, Gwadar, Nasiraba, Jaffarabad, Hub, Dera Murad Jamali, Dera Allah Yar, Khyber-Pakhtunkhwa, Peshawar, Mardan, Abbottabad, Mingor, Kohat, Bannu, Swabi, Dera Ismail Khan, Charsadda, Nowshera, Mansehra, Hyderabad, Sukkur, Larkana, Nawabshah, Nanak wara, Mirpur Khas, Jacobabad, Shikarpur, Khairpur, Pakistan.
Civil Engineering
Civil engineering is a professional engineering discipline that deals with the design, construction, and maintenance of the physical and naturally built environment, including works like roads, bridges, canals, dams, and buildings. Civil engineering is traditionally broken into a number of sub-disciplines. It is the second-oldest engineering discipline after military engineering, and it is defined to distinguish non-military engineering from military engineering. Civil engineering takes place in the public sector from municipal through to national governments, and in the private sector from individual homeowners through to international companies.
Materials science and engineering
Materials science is closely related to civil engineering. It studies fundamental characteristics of materials, and deals with ceramics such as concrete and mix asphalt concrete, strong metals such as aluminum and steel, and polymers including polymethylmethacrylate (PMMA) and carbon fibers. Materials engineering involves protection and prevention (paints and finishes). Alloying combines two types of metals to produce another metal with desired properties. It incorporates elements of applied physics and chemistry. With recent media attention on nanoscience and nanotechnology, materials engineering has been at the forefront of academic research. It is also an important part of forensic engineering and failure analysis.
Construction engineering
Construction engineering involves planning and execution, transportation of materials, site development based on hydraulic, environmental, structural and geotechnical engineering. As construction firms tend to have higher business risk than other types of civil engineering firms do, construction engineers often engage in more business-like transactions, for example, drafting and reviewing contracts, evaluating logistical operations, and monitoring prices of supplies.
Geotechnical engineering
Geotechnical engineering studies rock and soil supporting civil engineering systems. Knowledge from the field of soil science, materials science, mechanics, and hydraulics is applied to safely and economically design foundations, retaining walls, and other structures. Environmental efforts to protect groundwater and safely maintain landfills have spawned a new area of research called geoenvironmental engineering. Identification of soil properties presents challenges to geotechnical engineers. Boundary conditions are often well defined in other branches of civil engineering, but unlike steel or concrete, the material properties and behavior of soil are difficult to predict due to its variability and limitation on investigation. Furthermore, soil exhibits nonlinear (stress-dependent) strength, stiffness, and dilatancy (volume change associated with application of shear stress), making studying soil mechanics all the more difficult.
Structural engineering
Structural engineering is concerned with the structural design and structural analysis of buildings, bridges, towers, flyovers (overpasses), tunnels, off shore structures like oil and gas fields in the sea, aerostructure and other structures. This involves identifying the loads which act upon a structure and the forces and stresses which arise within that structure due to those loads, and then designing the structure to successfully support and resist those loads. The loads can be self weight of the structures, other dead load, live loads, moving (wheel) load, wind load, earthquake load, load from temperature change etc. The structural engineer must design structures to be safe for their users and to successfully fulfill the function they are designed for (to be serviceable). Due to the nature of some loading conditions, sub-disciplines within structural engineering have emerged, including wind engineering and earthquake engineering. Design considerations will include strength, stiffness, and stability of the structure when subjected to loads which may be static, such as furniture or self-weight, or dynamic, such as wind, seismic, crowd or vehicle loads, or transitory, such as temporary construction loads or impact. Other considerations include cost, constructability, safety, aesthetics and sustainability.
Surveying
Surveying is the process by which a surveyor measures certain dimensions that occur on or near the surface of the Earth. Surveying equipment, such as levels and theodolites, are used for accurate measurement of angular deviation, horizontal, vertical and slope distances. With computerisation, electronic distance measurement (EDM), total stations, GPS surveying and laser scanning have to a large extent supplanted traditional instruments. Data collected by survey measurement is converted into a graphical representation of the Earth's surface in the form of a map. This information is then used by civil engineers, contractors and realtors to design from, build on, and trade, respectively. Elements of a structure must be sized and positioned in relation to each other and to site boundaries and adjacent structures. Although surveying is a distinct profession with separate qualifications and licensing arrangements, civil engineers are trained in the basics of surveying and mapping, as well as geographic information systems. Surveyors also lay out the routes of railways, tramway tracks, highways, roads, pipelines and streets as well as position other infrastructure, such as harbors, before construction.
Land surveying
In the United States, Canada, the United Kingdom and most Commonwealth countries land surveying is considered to be a separate and distinct profession. Land surveyors are not considered to be engineers, and have their own professional associations and licensing requirements. The services of a licensed land surveyor are generally required for boundary surveys (to establish the boundaries of a parcel using its legal description) and subdivision plans (a plot or map based on a survey of a parcel of land, with boundary lines drawn inside the larger parcel to indicate the creation of new boundary lines and roads), both of which are generally referred to as Cadastral surveying.
Construction surveying
Construction surveying is generally performed by specialised technicians. Unlike land surveyors, the resulting plan does not have legal status. Construction surveyors perform the following tasks:
Surveying existing conditions of the future work site, including topography, existing buildings and infrastructure, and underground infrastructure when possible;
"lay-out" or "setting-out": placing reference points and markers that will guide the construction of new structures such as roads or buildings;
Verifying the location of structures during construction;
As-Built surveying: a survey conducted at the end of the construction project to verify that the work authorized was completed to the specifications set on plans.
Civil Engineering Course in Rawalpindi, Islamabad, Pakistan. IPATS Govt Recognized +923035530865,3219606785
Civil Engineering Course Content:
Introduction Civil Surveyor
Classification of survey
Civil Serveyor
Principles of survey
Chain survey
Plotting of chain survey
Compass survey
Bearing system
Drawing Scales
Types of scales
Leveling
Technical terms
Purpose of Leveling
Plain table survey
Methods of plane table survey
Adjustment of Levels
Total Station Practical Training
Auto Level / Theodolite Training
GPS Practical Training
Class
5 Days a Weeks Class Timing
Evening & Morning Shift
CIVIL Engineering Diploma Course in Rawalpindi, Islamabad, Pakistan. IPATS Govt Recognized +923035530865,3219606785
CIVIL LABORATORY TECHNICIAN COURSE IN RAWALPINDI, ISLAMABAD, PAKISTAN. IPATS Govt Recognized +923035530865,3219606785
Civil Lab Technician Course IPATS Govt Recognized +923035530865,3219606785
Civil lab technician course in Rawalpindi, Islamabad, Pakistan. Civil Lab Technician Diploma course in Rawalpindi, Islamabad, Pakistan. Civil laboratory Technician course in Rawalpindi, Islamabad, Pakistan. Civil Lab Technician Diploma course in Rawalpindi, Islamabad, Pakistan. Civil laboratory technician diploma course in Rawalpindi, Islamabad, Pakistan. Civil Lab Technician training course in Rawalpindi, Islamabad, Pakistan. Civil laboratory technician training course in Rawalpindi, Islamabad, Pakistan. IPATS Govt Recognized +923035530865,3219606785
Students from different cities can apply for Admission
Rawalpindi, Islamabad, Lahore, Karachi, Gilgit, Skardu, Ghangche, taxila, Shigar, Astore, Diamer, Ghizer, Kharmang, Gultari, Rondo, Hunza Nagar, Gupi, Azad Jammu and Kashmir, Muzaffarabad, Mirpur, Bhimber, Kotli, Rawlakot, Bagh, Bahawalpur, Bhakkar, Chakwal, Chiniot, Dera Ghazi Khan, Faisalabad, Gujranwala, Gujrat, Hafizabad, Jhang, Jhelum, Kasur, Khanewal, Khushab, Layyah, Lodharan, Mandi-Bahuddin, Mianwali, Multan, Muzaffargarh, Nankana Sahib, Narowal, Okara, Pakpattan, Rahim Yar Khan, Rajanpur, Sahiwal, Sargodha, Sheikhupura, Sialkot, Toba tek Singh, Vehari, Attock, Taxila, Wah Cantt, Rawalpindi, Balochistan, Khyber-Pakhtunkhwa, Punjab, Sindh, Gilgit Baltistan, Turbat, Sibi, Chaman, Lasbela, Zhob, Gwadar, Nasiraba, Jaffarabad, Hub, Dera Murad Jamali, Dera Allah Yar, Khyber-Pakhtunkhwa, Peshawar, Mardan, Abbottabad, Mingor, Kohat, Bannu, Swabi, Dera Ismail Khan, Charsadda, Nowshera, Mansehra, Hyderabad, Sukkur, Larkana, Nawabshah, Nanak wara, Mirpur Khas, Jacobabad, Shikarpur, Khairpur, Pakistan.
Civil Lab Technician
An engineering technician is primarily trained in the skills and techniques related to a specific branch of engineering, with a practical understanding and has general fundamental engineering concepts. Engineering technicians often assist engineers and technologists in projects and research and development. An engineering technician sits between a skilled craft worker and a Technologist. Engineers apply techniques of engineering analysis in testing, production, or maintenance. Analytical engineers may supervise production in factories and elsewhere, determine the causes of a process failure, and test output to maintain quality. They also estimate the time and cost required to complete projects. Supervisory engineers are responsible for major components or entire projects. Engineering analysis involves the application of scientific analytic principles and processes to reveal the properties and state of the system, device or mechanism under study. Engineering analysis proceeds by separating the engineering design into the mechanisms of operation or failure, analyzing or estimating each component of the operation or failure mechanism in isolation, and recombining the components.
civil lab technician Technologist
An engineering technologist is a specialist dedicated to the development, design, and implementation of engineering and technology. Engineering technology education is more of a broad specialized and applied engineering education. Engineering Technologists often work under traditional engineers. However the Engineering Technologist Mobility Forum indicates that an engineering technologist's work should have required the exercise of independent engineering judgment for manufacturing firms, product improvement, design and construction, and government agencies applying engineering principles and technical skills. Engineering technologists also may assume senior management positions in industry or become entrepreneurs. civil lab technician is a professional engineering discipline that deals with the design, construction, and maintenance of the physical and naturally built environment, including works like roads, bridges, canals, dams, and buildings. civil lab technician is traditionally broken into a number of sub-disciplines. It is the second-oldest engineering discipline after military engineering, and it is defined to distinguish non-military engineering from military engineering. civil lab technician takes place in the public sector from municipal through to national governments, and in the private sector from individual homeowners through to international companies.
Civil Lab Technician Course in Rawalpindi, Islamabad, Pakistan. 03219606785,03035530865
Civil Laboratory Technician Course Content:
Soil Section Testing
Aggregate Section
Concrete Section
Asphalt Section
Bitumen Section
Cement Section
Steel Section
Class
5 Days a Weeks Class Timing
Evening & Morning Shift
Civil Laboratory Technician Course in Rawalpindi, Islamabad, Pakistan. IPATS Govt Recognized +923035530865,3219606785
Civil Surveyor Course IPATS Govt Recognized +923035530865,3219606785
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Students from different cities can apply for Admission
Rawalpindi, Islamabad, Lahore, Karachi, Gilgit, Skardu, Ghangche, taxila, Shigar, Astore, Diamer, Ghizer, Kharmang, Gultari, Rondo, Hunza Nagar, Gupi, Azad Jammu and Kashmir, Muzaffarabad, Mirpur, Bhimber, Kotli, Rawlakot, Bagh, Bahawalpur, Bhakkar, Chakwal, Chiniot, Dera Ghazi Khan, Faisalabad, Gujranwala, Gujrat, Hafizabad, Jhang, Jhelum, Kasur, Khanewal, Khushab, Layyah, Lodharan, Mandi-Bahuddin, Mianwali, Multan, Muzaffargarh, Nankana Sahib, Narowal, Okara, Pakpattan, Rahim Yar Khan, Rajanpur, Sahiwal, Sargodha, Sheikhupura, Sialkot, Toba tek Singh, Vehari, Attock, Taxila, Wah Cantt, Rawalpindi, Balochistan, Khyber-Pakhtunkhwa, Punjab, Sindh, Gilgit Baltistan, Turbat, Sibi, Chaman, Lasbela, Zhob, Gwadar, Nasiraba, Jaffarabad, Hub, Dera Murad Jamali, Dera Allah Yar, Khyber-Pakhtunkhwa, Peshawar, Mardan, Abbottabad, Mingor, Kohat, Bannu, Swabi, Dera Ismail Khan, Charsadda, Nowshera, Mansehra, Hyderabad, Sukkur, Larkana, Nawabshah, Nanak wara, Mirpur Khas, Jacobabad, Shikarpur, Khairpur, Pakistan.
Civil Surveyor
Surveying or land surveying is the technique, profession, and science of determining the terrestrial or three-dimensional position of points and the distances and angles between them. A land surveying professional is called a land surveyor. These points are usually on the surface of the Earth, and they are often used to establish land maps and boundaries for ownership, locations like building corners or the surface location of subsurface features, or other purposes required by government or civil law, such as property sales. Surveyors work with elements of geometry, trigonometry, regression analysis, physics, engineering, metrology, programming languages and the law. They use equipment like total stations, robotic total stations, GPS receivers, retro reflectors, 3D scanners, radios, handheld tablets, digital levels, drones, GIS and surveying software. Surveying has been an element in the development of the human environment since the beginning of recorded history. The planning and execution of most forms of construction require it. It is also used in transport, communications, mapping, and the definition of legal boundaries for land ownership. It is an important tool for research in many other scientific disciplines.
Surveying Equipment
The main surveying instruments in use around the world are the theodolite, measuring tape, total station, 3D scanners, GPS/GNSS, level and rod. Most instruments screw onto a tripod when in use. Tape measures are often used for measurement of smaller distances. 3D scanners and various forms of aerial imagery are also used.
Surveying Techniques
Surveyors determine the position of objects by measuring angles and distances. The factors that can affect the accuracy of their observations are also measured. They then use this data to create vectors, bearings, coordinates, elevations, areas, volumes, plans and maps. Measurements are often split into horizontal and vertical components to simplify calculation. GPS and astronomic measurements also need measurement of a time component.
Angle Measurement
Historically, horizontal angles were measured by using a compass to provide a magnetic bearing or azimuth. Later, more precise scribed discs improved angular resolution. Mounting telescopes with reticles atop the disc allowed more precise sighting (see theodolite). Levels and calibrated circles allowed measurement of vertical angles. Verniers allowed measurement to a fraction of a degree, such as with a turn-of-the-century transit. The plane table provided a graphical method of recording and measuring angles, which reduced the amount of mathematics required. In 1829 Francis Ronalds invented a reflecting instrument for recording angles graphically by modifying the octant. By observing the bearing from every vertex in a figure, a surveyor can measure around the figure. The final observation will be between the two points first observed, except with a 180° difference. This is called a close. If the first and last bearings are different, this shows the error in the survey, called the angular misclose. The surveyor can use this information to prove that the work meets the expected standards.
Levelling
The simplest method for measuring height is with an altimeter using air pressure to find height. When more precise measurements are needed, means like precise levels (also known as differential leveling) are used. When precise leveling, a series of measurements between two points are taken using an instrument and a measuring rod. Differences in height between the measurements are added and subtracted in a series to get the net difference in elevation between the two endpoints. With the Global Positioning System (GPS), elevation can be measured with satellite receivers. Usually GPS is somewhat less accurate than traditional precise leveling, but may be similar over long distances.
Civil Surveyor Course in Rawalpindi, Islamabad, Pakistan. IPATS Govt Recognized +923035530865,3219606785
Civil, Land Surveyor Course Content:
Introduction Civil Surveyor
Classification of survey
Civil Serveyor
Principles of survey
Chain survey
Plotting of chain survey
Compass survey
Bearing system
Drawing Scales
Types of scales
Leveling
Technical terms
Purpose of Leveling
Plain table survey
Methods of plane table survey
Adjustment of Levels
Total Station Practical Training
Auto Level / Theodolite Training
GPS Practical Training
Class
5 Days a Weeks Class Timing
Evening & Morning Shift
Civil , Land, Road Surveyor Course in Rawalpindi, Islamabad, Pakistan. IPATS Govt Recognized +923035530865,3219606785
3D STUDIO MAX COURSE IN RAWALPINDI, ISLAMABAD, PAKISTAN. IPATS Govt Recognized +923035530865,3219606785
3D Studio Max Course IPATS Govt Recognized +923035530865,3219606785
3D Studio Max Training Course in Rawalpindi, Islamabad, Pakistan.
3D Studio Max
Autodesk 3ds Max, formerly 3D Studio, then 3D Studio Max is a professional 3D computer graphics program for making 3D animations, models, games and images. It is developed and produced by Autodesk Media and Entertainment. It has modeling capabilities and a flexible plugin architecture and can be used on the Microsoft Windows platform. It is frequently used by video game developers, many TV commercial studios and architectural visualization studios. It is also used for movie effects and movie pre-visualization. For its modeling and animation tools, the latest version of 3ds Max also features shaders (such as ambient occlusion and subsurface scattering), dynamic simulation, particle systems, radiosity, normal map creation and rendering, global illumination, a customizable user interface, new icons, and its own scripting language. 3ds Max works with most major renderers, such as V-Ray, Iray, and mental ray, to create high-end scenes and striking visuals for design visualization and more. 3ds Max works with Autodesk Revit, Inventor, Fusion 360, and Stingray, as well as SketchUp, Unity, Unreal, and more.
MAXScript
MAXScript is a built-in scripting language that can be used to automate repetitive tasks, combine existing functionality in new ways, develop new tools and user interfaces, and much more. Plugin modules can be created entirely within MAXScript.
Character Studio
Character Studio was a plugin which since version 4 of Max is now integrated in 3D Studio Max; it helps users to animate virtual characters. The system works using a character rig or "Biped" skeleton which has stock settings that can be modified and customized to fit the character meshes and animation needs. This tool also includes robust editing tools for IK/FK switching, Pose manipulation, Layers and Keyframing workflows, and sharing of animation data across different Biped skeletons. These "Biped" objects have other useful features that help accelerate the production of walk cycles and movement paths, as well as secondary motion.
CONDITIONAL FORMATTING
Conditional formatting is a powerful feature in Excel that is often underutilized. By using conditional formatting, you can tell Excel to highlight portions of your data that meet any given condition. For example: highlighting top 10 customers, below average performing employees etc. While anyone can set up simple conditional formatting rules, an advanced Excel user can do a lot more. They can combine formulas with conditional formatting to highlight data that meets almost any condition.
Scene Explorer
Scene Explorer, a tool that provides a hierarchical view of scene data and analysis, facilitates working with more complex scenes. Scene Explorer has the ability to sort, filter, and search a scene by any object type or property (including metadata). Added in 3ds Max 2008, it was the first component to facilitate .NET managed code in 3ds Max outside of MAXScript.
DWG import
3ds Max supports both import and linking of DWG files. Improved memory management in 3ds Max 2008 enables larger scenes to be imported with multiple objects.
VBA & MACROS
Excel’s own language – VBA, allows us to give instructions to Excel to get things done. This is a simple, but extremely powerful way to extend Excel’s functionality. Advanced users of Excel are familiar with VBA & can write macros to automate their day to day work, thus saving countless hours of time & money.
Texture assignment/editing
3ds Max offers operations for creative texture and planar mapping, including tiling, mirroring, decals, angle, rotate, blur, UV stretching, and relaxation; Remove Distortion; Preserve UV; and UV template image export. The texture workflow includes the ability to combine an unlimited number of textures, a material/map browser with support for drag-and-drop assignment, and hierarchies with thumbnails. UV workflow features include Pelt mapping, which defines custom seams and enables users to unfold UVs according to those seams; copy/paste materials, maps and colors; and access to quick mapping types (box, cylindrical, spherical).
General keyframing
Two keying modes — set key and auto key — offer support for different keyframing workflows. Fast and intuitive controls for keyframing — including cut, copy, and paste — let the user create animations with ease. Animation trajectories may be viewed and edited directly in the viewport.
Constrained animation
Objects can be animated along curves with controls for alignment, banking, velocity, smoothness, and looping, and along surfaces with controls for alignment. Weight path-controlled animation between multiple curves, and animate the weight. Objects can be constrained to animate with other objects in many ways — including look at, orientation in different coordinate spaces, and linking at different points in time. These constraints also support animated weighting between more than one target. All resulting constrained animation can be collapsed into standard keyframes for further editing.
Skinning
Either the Skin or Physique modifier may be used to achieve precise control of skeletal deformation, so the character deforms smoothly as joints are moved, even in the most challenging areas, such as shoulders. Skin deformation can be controlled using direct vertex weights, volumes of vertices defined by envelopes, or both. Capabilities such as weight tables, paintable weights, and saving and loading of weights offer easy editing and proximity-based transfer between models, providing the accuracy and flexibility needed for complicated characters. The rigid bind skinning option is useful for animating low-polygon models or as a diagnostic tool for regular skeleton animation. Additional modifiers, such as Skin Wrap and Skin Morph, can be used to drive meshes with other meshes and make targeted weighting adjustments in tricky areas.
3D Studio Max Course in Rawalpindi, Islamabad, Pakistan. 0321-4278510, 0331-9370215
3D Studio Max Course Content:
Autodesk 3DS Max Design Interface and Workflow
Autodesk 3DS Max Design Project Configuration
Assembling files
3D Modelling from 2D Objects
lighting
Data Extracting using filter technique
Lighting with Autodesk 3DS Max mental ray
Data integrity using data validation
Rendering
Understanding new conditional formatting features
Animation for Visualisation
Detailed box modelling techniques
Learn about the Edge Copying technique
Combine multiple mode ling concepts to create photo-real models
Learn to build anything from Airplanes to humans
The difference between Mesh & Nurbs techniques
Material Techniques
Learn game texturing techniques
Pelt Mapping
Layer many maps using UVW map channels
Using Alphas & images as Alphas
Mix & Composite Mapping
Material types in depth including Multi-Sub Object
Composite
Matte/shadow
Raytraced materials
Render to texture
Effects
Particles tips and tricks
Particle Flow
Environmental effects
Composition tips
Glow & flares
Dynamics with Reactor
Add Bones into the Mesh
The ‘Da Vinci pose- Do’s & Don’ts’
Preparing the mesh for Bone Rigging
Adding Bones into using Mesh Template
Rigging
Mechanical vs. Bone Rigs
Set up a Rig using HI Solver & Sliders
Over 3 Different Custom Biped Rigs- developed by the instructor
Roper usage of Coordinate Systems to prevent Rigging problems
Create Biped, Quadrupeds or any Multi-legged Character
Creative use of Controllers & Constraints
What the books don’t show us
Character Studio
Biped, Physique & Skinning
Learn Workflows for Successful Rigging Fitting Biped to a Mesh
Creating Footsteps, Varying Time & Stride length
RFootsteps in Track View
Upper body animation
Freeform animation
Anchoring
IK Blending
Body Dynamics
Passing Objects
Obstacle Coursed
Motion Capture
Motion Flow
Curve Editing
Skinning
Skin modifier
Skin morph & skin wrap
Envelopes
Vertex editing
Weight tables
Mirror mode
Animation Techniques
Tip & tricks on walk cycles
Human & animal locomotion techniques
Morph modifier for facial animation
Lighting
Using Skylight
Area lights
Radiosity
Light Tracer
Photometric lights
Tips on how to reduce time consuming renders with simple standard lights
Animation
Learn controllers in depth
List controllers & limit controllers
Parameter collector
Wire Parameters
Sliders
Inverse kinematics
IK Solvers
Animation modifiers
Morphing
Animation materials & effects
Channel locks & inherit
Class
5 Days a Weeks Class Timing
Evening & Morning Shift
3D Studio Max Training Course in Rawalpindi, Islamabad, Pakistan. IPATS Govt Recognized +923035530865,3219606785
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