Getting Started SURFCAM

Total Page:16

File Type:pdf, Size:1020Kb

Getting Started SURFCAM Get Started with SURFCAM Copyright © 2010 Surfware, Inc. All rights reserved. Information is subject to change without notice. No part of this manual may be reproduced, transmitted, translated in any form or by any means, graphic, electronic, or mechanical, including photocopying, recording, taping, or by any information storage or retrieval system, without written permission from Surfware, Inc. The software described in this document may only be used or copied in accordance with the terms of the furnished license agreement and/or non-disclosure agreement. It is illegal to copy the software onto any medium except as specified in the license or non-disclosure agreement. All Surfware, Inc. software products contain integrated security programs and/or plug-in modules that are required for the software license to properly operate. It is a violation of the Surfware, Inc. copyrights and U.S. Copyright law to disable or attempt to disable or remove or otherwise operate the software without the security programs and/or modules installed. Any software not supplied by Surfware, Inc. which is intended to allow the operation of the software without the required plug-in security module and/or integrated security programs is a copyright violation. SURFCAM is a registered trademark of Surfware Inc. All brand or product names or proprietary file types mentioned in this document are trademarks or registered trademarks of their respective holders. Contact the appropriate companies for more information regarding trademarks and registration. Surfware, Inc. 100 Camino Ruiz Camarillo, California 93012 USA Phone (818) 991-1960 Fax (818) 991-1980 www.surfware.com Printed in the United States of America Contents Introduction to SURFCAM ............................................................................................1 System Requirements .................................................................................................. 2 Software Interface Module ........................................................................................... 2 Installing SURFCAM .................................................................................................... 2 Running SURFCAM ..................................................................................................... 3 Using the Get Started Project Files .............................................................................. 3 SURFCAM Help ........................................................................................................... 4 SURFCAM User Interface ............................................................................................ 5 Using SURFCAM ..........................................................................................................10 Creating part designs in SURFCAM ............................................................................11 Creating toolpaths ......................................................................................................13 Managing toolpaths ....................................................................................................16 Testing the accuracy of toolpaths ................................................................................17 Generating NC code ...................................................................................................18 Communicating with the NC machine .........................................................................18 Project 1 • Draw a 2D Part ...........................................................................................19 Creating and modifying geometry in SURFCAM ......................................................... 20 Before you begin ........................................................................................................ 23 Step 1: Draw the part profile ...................................................................................... 24 Step 2: Draw the closed pockets ................................................................................ 35 Step 3: Draw drilled holes ...........................................................................................47 Step 4: Draw the stock profile .................................................................................... 53 Step 5: Reposition the stock ...................................................................................... 55 Project 2 • Mill a Production Part ...............................................................................59 SURFCAM 2 Axis Milling ........................................................................................... 60 Before you begin ........................................................................................................ 64 Step 1: Face the material ........................................................................................... 65 Step 2: Mill the pockets and profile .............................................................................71 Step 3: Drill the holes ................................................................................................ 76 Step 4: Chamfer the edges ........................................................................................ 88 Step 5: Verify the tool path ......................................................................................... 92 Step 6: Create a setup sheet ...................................................................................... 97 Step 7: Generate the NC code ................................................................................... 99 Project 3 • Design a 3D Part ..................................................................................... 101 Creating and modifying surfaces in SURFCAM .........................................................102 Before you begin .......................................................................................................103 Step 1: Create the dial surfaces ................................................................................104 Step 2: Create the display area .................................................................................109 Step 3: Add the cover ............................................................................................... 112 Step 4: Trim the surfaces ..........................................................................................115 Step 5: Add the buttons ............................................................................................ 117 Project 4 • Mill a Complex 3D Part ...........................................................................125 SURFCAM 3 Axis Milling ..........................................................................................126 Before you begin .......................................................................................................127 Step 1: Rough Surfaces ............................................................................................128 Step 2: Finish the camera body .................................................................................133 Step 3: Finish the lens housing .................................................................................138 Step 4: Trace the blend fillets ....................................................................................142 Step 5: Verify the toolpath .........................................................................................145 Index ...........................................................................................................................149 Get Started with SURFCAM Introduction to SURFCAM Surfware Inc. incorporates continuous revolutionary innovation into its SURFCAM product line to solve today’s biggest design and manufacturing concerns. SURFCAM utilizes cutting edge technologies for NC programming of 2-, 3-, 4- and 5-axis mills and lathes. This powerful full featured CAM system is easy to learn and a perfect fit for any shop’s requirements to increase productivity and profitability. This Get Started manual is for the Full, Educational, and Demo versions of SURFCAM. All three versions have the same 2D and 3D wireframe and surface design features. To obtain the most value, it is important to keep SURFCAM open as you read your Get Started manual. Before you begin, you should have the following: • Experience with the Microsoft® Windows® operating system • Mechanical design experience • Machine programming experience Depending on which version of Windows you are running on your computer, you may notice a difference in the appearance of the menus and windows in this guide. These differences are merely visual and do not affect the projects you will complete in this guide. • Standard Version. The standard version of SURFCAM saves design files with a .scprt file extension. These files can be opened with all three versions of SURFCAM. • Educational and Demo/Student versions. These versions of SURFCAM save files with a .dem file extension. These files can only be read by educational and demo/student versions of the software. The Demo/Student version lets you create a temporary toolpath and display it on the screen, but you cannot save the toolpath. Important: Files with a .dem extension cannot be opened with the standard version of SURFCAM. System Requirements The following operating system components are required by SURFCAM: • Operating System: Windows® XP Service Pack 3. Microsoft .NET 2.0 framework • Microsoft® Internet Explorer version 5.0
Recommended publications
  • Izrada Strategije Za Obradu Glodanjem Na Cnc Strojevima Design of Milling Tool Cutting Strategy for Cnc Manufacturing Operations
    Eng. Rev. 28-1 (2008) 93-97 93 ____________________________________________________________________________________________________________________________________________________ UDC 621.9-52:621.914:004.89 IZRADA STRATEGIJE ZA OBRADU GLODANJEM NA CNC STROJEVIMA DESIGN OF MILLING TOOL CUTTING STRATEGY FOR CNC MANUFACTURING OPERATIONS Jozef NOVÁK-MARCINČIN Sažetak: Da bi se postiglo kraće vrijeme obrade i bolja kvaliteta površine, proizvodni inženjer mora primijeniti optimizaciju digitalno kontrolirane proizvodnje strojeva za glodanje kao i koncept točnog dizajna – strategiju gibanja alata za glodanje. Zbog mogućnosti izvođenja velikog broja različitih vrsta površina na različitim proizvodnim strojevima, a korištenjem različitih tehnoloških parametara, teško je izabrati optimalan i učinkovit koncept gibanja alata za glodanje. Novi moderan pristup rješavanju tih problema za sobom povlači primjenu ekspertnog sustava i sustava temeljenog na znanju, kao i klasičnog softvera namijenjenog izradi kontrolnog NC programa. Ključne riječi: – strategija obrade glodalom – NC programiranje Summary: In order to obtain better cutting time and better quality of parts surfaces, it is necessary for the manufacturing engineer to implement optimal digitally controlled milling manufacturing machines as well as an accurate design concept—a strategy for milling tool motion. On the grounds of the possibility for realizing a wide array of different type surfaces on different manufacturing devices, and through the exploitation of various technological parameters, it is difficult to choose an optimal and efficient concept for milling tool motion. The new and modern approach to solving these problems constitutes the application of expert and knowledge systems in collaboration with classical software intended for creation by control NC programs. Keywords: – milling tool cutting strategy – NC programming 1. INTRODUCTION A third benefit offered by most forms of CNC machine tools is flexibility.
    [Show full text]
  • Download the PLM Industry Summary
    PLM Industry Summary Jillian Hayes, Editor Vol. 14 No 31 Friday 3 August 2012 Contents CIMdata News _____________________________________________________________________ 2 CIMdata Publishes PLM Market and Solution Provider Analysis Report ____________________________2 The Changing Face of Collaboration: a CIMdata Commentary ____________________________________4 Acquisitions ______________________________________________________________________ 10 Rand Worldwide Acquires Informative Design Partners ________________________________________10 Synopsys Acquires Ciranova _____________________________________________________________10 Synopsys to Acquire SpringSoft ___________________________________________________________11 Company News ____________________________________________________________________ 12 ASCON Awarded Winners of Tenth Annual KOMPAS-3D Modeling Contest ______________________12 Dassault Systèmes Partners with Washington State to Prepare the Next Generation of Aerospace Innovators ____________________________________________________________________________________13 Hagerman & Company Earns Autodesk PLM 360 Specialization _________________________________14 Kayak Slalom Presents Olympic Engineering Challenge ________________________________________15 Mastercam Announces 7th Annual “Innovator of the Future” ____________________________________17 Nicom Expands With New Vero Products in Poland ___________________________________________18 PROCAD Celebrates 24th Year Anniversary _________________________________________________18
    [Show full text]
  • Vysoké Učení Technické V Brně Brno University of Technology
    VYSOKÉ UČENÍ TECHNICKÉ V BRNĚ BRNO UNIVERSITY OF TECHNOLOGY FAKULTA STROJNÍHO INŽENÝRSTVÍ FACULTY OF MECHANICAL ENGINEERING ÚSTAV STROJÍRENSKÉ TECHNOLOGIE INSTITUTE OF MANUFACTURING TECHNOLOGY ANALÝZA MOŽNOSTÍ NC PROGRAMOVÁNÍ UZAVŘENÝCH KAPES ANALYSIS OF NC PROGRAMMING OPTIONS FOR ENCLOSED POCKETS DIPLOMOVÁ PRÁCE MASTER'S THESIS AUTOR PRÁCE Bc. Jiří Janda AUTHOR VEDOUCÍ PRÁCE Ing. Aleš Polzer, Ph.D. SUPERVISOR BRNO 2017 Zadání diplomové práce Ústav: Ústav strojírenské technologie Student: Bc. Jiří Janda Studijní program: Strojní inženýrství Studijní obor: Strojírenská technologie Vedoucí práce: Ing. Aleš Polzer, Ph.D. Akademický rok: 2016/17 Ředitel ústavu Vám v souladu se zákonem č.111/1998 o vysokých školách a se Studijním a zkušebním řádem VUT v Brně určuje následující téma diplomové práce: Analýza možností NC programování uzavřených kapes Stručná charakteristika problematiky úkolu: Při programování obráběcích strojů je možno využít řady různých programovacích jazyků a metodik. Frézování jednotlivými strategiemi CAM softwaru PowerMILL 2017 a cykly řídicího systému Sinumerik 840D (SinuTrain 4.7) vede k rozdílným výsledkům. Toto téma je proto zaměřeno na analýzu možností NC programování uzavřených kapes. Cíle diplomové práce: – Vytvoření stručného přehledu strategií použitelných pro frézování uzavřených kapes. – Stručný rozbor zatížení frézovacího nástroje při hrubovacím a dokončovacím frézování kapes. – Stručné zhodnocení výhod a nevýhod jednotlivých hrubovacích strategií pro frézování kapes. Seznam doporučené literatury: Autodesk PowerMill 2017: Getting Started. 1. United Kingdom, 2016. Autodesk PowerMill 2017: What's New. 1. United Kingdom, 2016. Traditional machining processes. 1. New York: Springer, 2014. ISBN 978-366-2450-871. DAVIM, J. Paulo (ed.). Modern machining technology: a practical guide. 1st pub. Cambridge: Woodhead Publishing, 2011. Woodhead Publishing in mechanical engineering.
    [Show full text]
  • Computer Applications in Food Technology
    COMPUTER APPLICATIONS IN FOOD TECHNOLOGY ©Vedpal Yadav, Lecturer in Food Technology, Government Polytechnic, Mandi Adampur, Hisar, Haryana, India-125052. e-mail- [email protected] Mobile- +919416589819 5.3 COMPUTER APPLICATIONS IN FOOD TECHNOLOGY L T P - - 5 RATIONALE The main objective of introducing this subject in the diploma course of food technology is to expose the student with fundamental knowledge on hardware and software of computers. It will also impart knowledge related to the applications of computation in food industries. The relevant theory instructions may be imparted along with practical exercises. DETAILED CONTENTS 1. Introduction 1.1. Introduction to computer and related hardware used in food industry (Touch Screens, Hand Held Devices, Palm Tops, Barcode Printers and Scanners, RFID Tags, etc.) 1.2. Introduction to various softwares for their application in food technology (like SAP, justFoodERP, FoodWorks, SERVE, etc.) with relevant case studies. 1.3. Application of MS Excel (latest version) to solve the problems of Food Technology 1.4. MS Excel Basics 1.4.1. Introduction to different menus and commands commonly used in solving problems. 1.4.2. Use of Add-In Tools like MegaStat, etc. for statistical data analysis. 2. Application of MS Excel to solve the problems of Food Technology 2.1. Chemical kinetics in food processing 2.1.1. Determining rate constant of zero order reaction 2.1.2. First order rate constant and half-life of reactions 2.2. Microbial destruction in thermal processing of foods 2.2.1. Determining decimal reduction time from microbial survival data 2.3. Statistical quality control in food processing 2.3.1.
    [Show full text]
  • ENGINEERING Indian Journal of Engineering, Volume 9, Number 20, March 5, 2014
    ANALYSIS • MECHANICAL ENGINEERING Indian Journal of Engineering, Volume 9, Number 20, March 5, 2014 7765 Indian Journal of – 2319 7757 7757 EISSN ngineering – E 2319 ISSN 3D Modeling and virtual manufacturing of a machine component using CATIA V5 and MASTERCAM Adarsh Adeppa1 Shivkumar biradar2 1. Assistant professor, Dept of Mechanical Engineering BKIT, Bhalki Karnataka, India 2. Assistant professor, Dept of Mechanical Engineering BKIT, Bhalki Karnataka, India Publication History Received: 11 January 2014 Accepted: 19 February 2014 Published: 5 March 2014 Citation Adarsh Adeppa, Shivkumar biradar. 3D Modeling and virtual manufacturing of a machine component using Catia V5 and Mastercam. Indian Journal of Engineering, 2014, 9(20), 6-13 ABSTRACT It has been human nature to innovate, discover, invent new things and so has been his creation. Design may be pronounced as the synonym for creation. So there is no end to man’s creation, design and hence CAD. By passage of time it will be even smarter, quicker and sophisticated. computer-aided design (cad) and computer-aided manufacturing (cam) hence there are several way of manufacturing similarly catia and mastercam. In the recent years product development is facing the challenges of maintaining mass productivity and reaching the customer recruitment. In this paper we are discussing about the method of combining the virtual prototype with design by analysis techniques. Final outcome of the report is to provide quality products, good accuracy by creating the prototype model. The main intension of virtual prototype for customized product development is to provide multidisciplinary design. This design helps in utilization and capture of information generated during the design phase, and the simultaneous generation, at design time, of manufacturing, materials, costing, and scheduling data, together with visual evaluation of customer perception on target products, hence supporting the implementation of engineering.
    [Show full text]
  • Download the PLM Industry Summary
    PLM Industry Summary Christine Bennett, Editor Vol. 12 No.11 Friday March 19, 2010 Contents Top Story _________________________________________________________________________ 2 Apriso Joins Dassault Systèmes Software Partner Community ____________________________________2 Acquisitions _______________________________________________________________________ 3 Mentor Graphics Acquires Valor Computerized Systems, Ltd. ____________________________________3 Company News _____________________________________________________________________ 4 Autodesk Launches European Clean Tech Partner Program ______________________________________4 Autodesk Names CompuSoluciones as New Value Added Distributor in Mexico _____________________6 Autodesk Names M2 Technologies Reseller of the Quarter for Customer Service Excellence ____________6 Autodesk Publishes Framework to Help AEC Professionals Implement BIM Process __________________7 Bentley Issues 2010 Be Inspired Awards Call for Entries ________________________________________8 Cadence Europe Expands Its Academic Network ______________________________________________9 COMSOL Offers a Complimentary Multiphysics Conference CD - 2010 Edition ____________________ 10 EMC Appoints Industry Veteran Jeremy Burton as Executive Vice President and Chief Marketing Officer 10 PTC® to Support the Arkwright Scholarships ________________________________________________ 11 Synergis Inducted into Autodesk Platinum Club 2010 as Top Reseller in Overall Manufacturing Solutions Sales Growth __________________________________________________________________________
    [Show full text]
  • PLM Industry Summary Jillian Hayes, Editor Vol
    PLM Industry Summary Jillian Hayes, Editor Vol. 14 No 23 Friday 8 June 2012 Contents Acquisitions _______________________________________________________________________ 3 Autodesk Acquires Vela Systems ___________________________________________________________3 CIMdata News _____________________________________________________________________ 4 CIMdata Publishes “Executing Effectively from Design to Manufacturing” __________________________4 LMS 2012 European Vehicle Conference: CIMdata Commentary _________________________________5 Company News _____________________________________________________________________ 7 Assemble Systems and TotalCAD Systems Partner to Launch BIM Software Integration Platform________7 Bentley Systems Makes $300,000 Commitment to Habitat for Humanity of Chester County for Coatesville, Pa., Housing Project _____________________________________________________________________8 BobCAD-CAM Software Sponsors Massachusetts Highschool Industrial Engineering Program __________9 Cadence Collaborates on 3D-IC Design Infrastructure with TSMC _______________________________10 CadFaster|Collaborate™ Awarded Best of Show Mobile App for Architects at the American Institute of Architects (AIA) National Convention ______________________________________________________11 Cadgroup Australia and CADPRO Systems Join Forces to Increase the Level of Support for Their Autodesk Customers in Australia and New Zealand ___________________________________________________12 CAIPros to Use Geomagic for 3D CAI, Metrology Automation __________________________________13
    [Show full text]
  • Cimdata Cpdm Late-Breaking News
    PLM Industry Summary Christine Bennett, Editor Vol. 13 No.9 Friday 4 March 2011 Contents Acquisitions _______________________________________________________________________ 3 Bentley Acquires SACS, Leading Software for Offshore Structure Analysis _________________________3 CIMdata News _____________________________________________________________________ 4 CIMdata Inc. Announces Next European PLM Certificate Program ________________________________4 “PLM & System Overlaps” by CIMdata’s President Peter Bilello _________________________________5 Selerant Continues to Accelerate (Commentary) _______________________________________________7 Company News ____________________________________________________________________ 10 Altium Sponsors ‘Part-Time Scientists’ on their Way to the Moon ________________________________10 Autodesk Platinum Club Recognizes Outstanding Partners for Fiscal Year 2011 _____________________11 Autodesk Unveils New Book That Explores the Changing World of Design at TED2011 ______________13 Boeing and Eurostep Release Joint Report - A New Approach to PLCS Web Services ________________14 Design Engineers Worldwide Compete in 2011 'Create the Future' Contest _________________________14 FIRST ® and PTC® Expand Collaboration to Bring FIRST ® Tech Challenge to India, China and Eastern Europe _______________________________________________________________________________15 Helping Prepare Rwanda’s Students for the Future with SolidWorks ______________________________16 PLM Elite: New Partner-Network for PDM/PLM-Solutions
    [Show full text]
  • 13Th DAAAM INTERNATIONAL SYMPOSIUM (12
    7th INTERNATIONAL MULTIDISCIPLINARY CONFERENCE Baia Mare, Romania, May 17-18, 2007 ISSN-1224-3264 COMPUTER AIDED MANUFACTURING - CAM SYSTEMS Eduard, Lörinc Technical university of Košice with a seat in Prešov, Faculty of Manufacturing Technologies, ul. Bayerova 1, 080 01, Prešov. Abstract: The goal of this paper is too briefly and comprehensively describe the main features of computer aided manufacturing systems (CAM) and to decrease the lack of information in this area. Maximal production asset can only be achieved by complex application of computer aided manufacturing systems into the all activities related to manufacturing realization, which means that besides design this application should affect the choice of manufacturing technology, workplace project, tools and fixtures project and manufacturing realization itself followed by checking of product quality. Key words: Computer Aided Manufacturing, CAM Systems, NC - Numeric Control, CNC - Computer Numeric Control. 1. INTRODUCTION The history of computer aided systems is essentially identical with the history of computer aided design and construction which is primary related with the history of computer graphics. There was no possibility to create solids, to manipulate with them and to check them until computer graphics began. Computer aided design and construction only contained the computation execution. Although the first project of calculating machine - calculator with the graphic mode was presented in 1945 by Vannevar Bush, it was never realized. First computers with the option of interactive graphic control on screen were produced in early 60’s which was mainly the merit of General Motors, Lockheed, NASA and Bell Labs. Even though first systems of computer graphics and computer aided design and construction were developed using different computer platforms, the biggest producers of computer (IBM, DEC, Control Data, Texas Instruments) ignored this area.
    [Show full text]
  • Cimdata Cpdm Late-Breaking News
    PLM Industry Summary Editor: Christine Bennett Vol. 11 No. 9 Friday 27 February 2009 Contents CIMdata News _____________________________________________________________________ 3 CIMdata’s President Ed Miller Presents “Mechatronics Role in PLM Strategies” at EMM 2009 __________3 “PLM isn’t just for big companies anymore” by Ed Miller _______________________________________3 Company News _____________________________________________________________________ 5 ASME and Autodesk Survey Shows Mechanical Engineers Increasingly Focused on Sustainable Design __5 Aspen Technology Announces CFO Transition ________________________________________________6 Bentley’s “Be Employable” Initiative Provides Free Software and Training to Help Sustain Infrastructure Professions ____________________________________________________________________________7 Bentley Extends Focus From Plant Creation to Value Creation ____________________________________8 COADE to Resell Leica CloudWorx for Accurate Piping “As-Builts” from Laser Scanning ____________ 10 Delcam’s ArtCAM Forum Tops 10,000 Members _____________________________________________ 10 DP Technology, Maker of ESPRIT, and Autodesk Italy Become Marketing Partners _________________ 11 Heike Auerbach Appointed to Lead T-Systems in North America ________________________________ 11 INCAT Surpasses 4,000 Employees Worldwide ______________________________________________ 12 Industry's First Low Power Verification Methodology Manual, Authored by ARM, Renesas Technology and Synopsys, is Now Available ______________________________________________________________
    [Show full text]
  • Cimdata Cpdm Late-Breaking News
    PLM Industry Summary Christine Bennett, Editor Vol. 14 No 2 Friday 13 January 2012 Contents Acquisitions _______________________________________________________________________ 2 Mentor Graphics Acquires the Flowmaster Group to Provide a Unique Combination of CFD Capabilities __2 Trace One and Agentrics - PLM are Merging to Create a Global Leader in Collaborative Platforms for Private Label Industry ____________________________________________________________________3 Trimble Acquires Plancal in Switzerland to Expand its Global Presence in the MEP Market ____________5 CIMdata News _____________________________________________________________________ 6 CIMdata Announces Dates for PLM Road Map™ 2012; Annual PLM Conference Set for October 2 & 3 __6 Siemens PLM Software Leverages Crowd Sourcing to Promote Solid Edge and JT (CIMdata Commentary) 7 Company News _____________________________________________________________________ 9 CD-adapco Welcomes Sector Manager for Electric Machines ____________________________________9 Delcam Launches New Web Site for FeatureCAM Feature-Based CAM System _____________________10 Kevin Gilroy to Lead Channel Business at SAP ______________________________________________11 Lawrence Tech Students Develop Winning Designs Using Dassault Systèmes’ CATIA _______________11 Mentor Graphics Appoints Three New Executives ____________________________________________12 PROSTEP and Geometric Partner to Provide First Line of Technical Support on PROSTEP’s Products for Customers in Asia Pacific ________________________________________________________________13
    [Show full text]
  • Software Tools for Cad/Cam
    Software and Hardware Tools for CAD/CAM SOFTWARE TOOLS FOR CAD/CAM There is lot of companies providing software’s for CAD/CAM/CAE solutions worldwide. Each software having its own importance and specialization. Some details of the widely used software’s is as below. CATIA (CAD/CAM/CAE): CATIA (Computer Aided Three-dimensional Interactive Application) is a multi-platform CAD/CAM/CAE commercial software suite developed by the French company Dassault’s Systems. The software was created in the late 1970s and early 1980s to develop Dassault's Mirage fighter jet, and then was adopted in the aerospace, automotive, shipbuilding, and other industries. Hardware Requirements: Windows Certified Workstations: Windows XP 32-bit Windows XP 64-bit Windows vista 64-bit Windows 7 64-bit 1 Software and Hardware Tools for CAD/CAM Processor manufacturer: Intel Dual Core i3 2120, chipset Intel 6 Series C206 Processor clock speed: up to 3.30 GHz Multi proc. enabled: Yes Max number of proc: 2 Dual Core Standard/Max RAM on Motherboard: 4096 MB/16.192 MB Memory model: DDR3 ECC Graphic manufacturer: NVIDIA Graphic model: Quadro Q2000 Maximum resolution: 2560x1600 @ 60 Hz for Dual link (SLI frame rendering mode). 3840xx2400 @ 24Hz for dual dual-link (single GPU) Image planes: 32 bit Texture memory: 1 GB (DB) Z buffer depth: 24 bit Driver: 270.98 External Bus type: PCI Hard Drive Controller Manufacturer and Model: Various Pro/ENGINEER (CAD/CAM/CAE): Pro/ENGINEER is a parametric, integrated 3D CAD/CAM/CAE solution created by Parametric Technology Corporation (PTC). It was the first to market with parametric, feature- based, associative solid modeling software on the market.
    [Show full text]