实例介绍
【实例简介】
Rsoft软件中应用之一bmp的教程(全英文)。里面第八章有丰富的例子可以让你模拟练习,更快的掌握此软件!
Contents Preface What's new in version 5.1 2 Limited Warranty Copyright Notice.. RSoft design group tm trademarks Acknowledgments System Requirements…… How to read this manual 4 What should i read and when? Conventions Chapter 1: Installation 1. A Main Program Installation 1.A.1. Installation Overview∴……………………… 7 I.A. 2. Backing up the examples 1. B. Testing the Beam PROP installation.... 1. C. What Next? 10 README File 10 Technical Support& Software Upgrades.………… 10 Chapter 2: Background 2.A. Background 2. B. Review of the Beam Propagation Method (BPM) 2.B. 1 Scalar ParaxiaL bpm 12 2. B 2. Numerical Solution and Boundary Conditions 14 2. B.3. Including polarization Vector BPM 15 2. B 4. Removing Paraxiality -Wide-Angle BPM 16 2. B 5. Handling Reflections- Bi-directional BPM 17 2. B.6. Additional bPm techniques 17 2. B 7 Mode Solving via Bpm 2. C. General guidelines for USing BPl. 2.B.8.R 19 21 2. C. 1. Overview 22 2.C.2. General Philosophy for Choosing Parameters………… 22 Chapter 3: A First Tour of Beam PROP 25 3.A. Component Programs and Files..... 25 Component Executables 25 Example files 26 3. B. Tutorial Example 6 Step 1: CAD Winde 2 Step 2: Creating a New circuit 28 Beam PROP 5.1.1 Contents·i Step 4: Creating Variables 30 Step 5: Drawing Waveguides............3 Step 6: Performing a Simulation 34 Step 7: The Simulation Window 3. c What Next? .36 Chapter 4: Using BeamPROP 37 4. A Program Operation 37 4.A.l. GUI Program Operation 4.A.2. Command Line and Batch Mode Operation... 37 39 4. B. Spatial grid 40 4.C. The Launch Condition 40 4.C. 1 Creating a Launch field 41 4.C.2. Polarization Manipulation. 46 4.C.3.L: g Multiple fie 46 4.D. Advanced Bidirectional BPM Options 46 4E. Display and Output Options…… 46 4. E 1. Display Opt 47 4.E.2. Output Options 50 Chapter 5: Monitoring and Analysis of Simulation Results 53 5A. Defining a Pathway.…… 5B. Creating a monitor…… 53 5.C. Assigning a Pathway to the monitor 54 5. D. Choosing a Monitor Type ………54 Note for Phase monitor 56 5E. Monitor Options…… 6 Chapter 6: Mode Solving 59 6. A Background 59 6. B. Mode Solving Overview .59 Step 1: Create the index structure in the R Soft Cad tool 59 Step 2: Choose the appropriate mode solver and related options ··…······· 59 Step 3: Decide which modes you want to solve for 60 Step 4: Choose Launch Field 60 Step 5: Choose the mode calculation parameters ep 6: Perform the mode calculation 61 6.C. Using the Iterative Method 6C.1. Computing Modes.………………………… 6. C2 Additional notes 6. D. Using the c ation method 6.D. 1 Computing only the Mode Spectrun 6. D.2. Computing the mode profiles and propagation constants 63 6. D3. Additional notes 6. E. Additional comments 64 6.E. 1 Finding Asymmetric Higher Order Modes with the Iterative Method....64 6.E. 2 Calculating Modes from the Command line 65 6.F. Refe Chapter 7: Advanced simulation Features 67 7. A. Incorporating Polarization Effects( Vector BPM) 67 7.A.1. Vector Simulation Options 67 7.A.2. 2D Vector BPm e Contents Beam PROP 5.1.1 7.A.3.3D Vector BPM 69 7. 4. Manipulating the Polarization of the Launch Field 69 7.A.5. Vector BPM and the effective Index Calculation Option .72 7. B. Advanced Numerical options 72 7. B. 1. Numerical Scheme 7. B 2. Boundary conditions 73 7.B.3. Scheme parameter.……… 74 7. B 4. Wide-Angle features 75 7.C∴. Bidirectional( alculation Options………………….…………… 76 7. C. 1. Background 77 7. C.2. Enabling a Bidirectional BPM Simulation 7 7. C.3. Bidirectional Parameters 78 7. D Defining Simulation Regions 7..l Why Use a Simulation Region? 79 7. D 2. Defining a Simulation Region .80 7.E. Additional Material Properties…… 7E. Anisotropy........ 81 7.E. 2. Non-Linearit 81 7. F. Calculation Electrodes/ Heater Effects 81 7. F 1. Defining Electro-Optic Material 8 7. F 2. Creating Electrodes Heaters in the CaD 7. F. 3. USing the Electrode/Heater Utility 7.F. 4. Additional Notes 84 7.G. Radial BPM 85 7 G1 Using radial bpm. 85 7.G.2. Displaying 3D Results 85 7. H. Effective Index calculations Chapter 8: Tutorial Examples 87 Tutorial I- Using the Multilayer Structure Type...…......….………..!87 The Multilayer Geometry 87 De .87 Analysis setu 94 Performing the Simulation 96 Performing A Mode Calculation…………… Further explorati 100 Tutorial 2-Simulating S-bends 101 Device Layout via Actual Bends 101 Device layout via Simulated Bend Feature 107 Simulation(Offset Optimization) 110 Performing the simulation .116 USing the Actual s-Bend 116 Tutorial 3 Multimode interference or mmi device 119 Device layout 119 Analysis Setup 123 Performing the Simulation 128 Tutorial 4- Using User-Defined Index Profiles 131 Device layout 31 Computing a mode 135 Tutorial5- Using multiple Launch Fields…… ∴137 Device layout 137 Drawing the Waveguides 137 Performing the simulation 142 Tutorial 6- Leaky modes in a Hollow Fiber ··.·· ··· …147 Device layout …………………147 Beam PROP 5.1.1 Contents·v Calculating the mode 154 Tutorial 7-Using Wide-Angle BPM 159 Device layout 159 Analysis Setup… 163 Experimenting with Wide Angle Propagation 165 Closing remarks 168 Tutorial 8-USing Bidirectional BPM for Modeling Gratings 169 Device layout 169 Analysis Setup…… 175 Simulation 176 Further Exploration..... 179 Tutorial 9-USing the Electrode Feature 181 Device layout 上 lectrode Layer and Electrode Setup and Simulation………………………….187 nalysis Setup…… 192 Simulation …………193 Tutorial 10- Using The WdM Router(awg)utility..................197 Tutorial 11: Using The Simulation Region Feature 199 Device layout 199 Analysis Setup……… 202 Simulation 204 Using Simulation Region Feature 207 Summary…… References 213 Appendix A: Tips and Traps in BeamPROP 215 Common BeamPRoP mistakes 215 Some good beamproP habits to learn 215 Appendix B: BeamPROP File Formats 217 Index (".ind) File Format 7 Graph File Format 217 Standard Field File Format ··· Field File Syntax… 218 Supported Output type 219 Example field Files 220 Monitor file format.… .221 Correlation file f Mode spectrum File Format........ 222 Mode results(effective Index file format 222 Mode field file format 223 Refractive Index and Loss Profile file formats 223 Appendix C: Symbol Table Variables 225 BPM Simulation parameters 225 Advanced numerical parameters 225 Bi-Directional Parameters 226 226 Output Opt .227 Launch parameters 27 Mode solving 228 Mode Calculation Options 228 Advanced Mode Solving Features ……28 Boundary Conditions… 229 i· Contents Beam PROP 5.1.1 Additional features 229 Compute Index Profile ··········· 229 Appendix D: BeamPROP Release Notes 231 Changes from Version 4.0 to Version 5.0 231 New Capabilities and Improvements to the Program( Version5.0)…………23 Significant Changes in Program Behavior (Version 5.0) 233 Changes from Version 3.0 to Version 4.0 …234 New Capabilities and Improvements to the Program(Version 4.0) 234 Significant Changes in Program Behavior (Version 4.0) 237 Changes from Version 2. 1 to Version 3. 0.. 238 New Capabilities and Improvements to the Program( Version3.0)……………238 Significant Changes in Program Behavior (Version 3.0) 239 Changes from Version 2.0 to Version 2.1 New Capabilities and Improvements to the Program (Version 2.1) 239 Significant Changes in Program Behavior( Version2.1)…………………240 Changes fronⅤ ersion l. I to version2.0.…… 240 New Capabilities and Improvements to the Program (Version 2.0) 240 Significant Changes in Program Behavior (Version 2.0 240 Changes from Version 1.0 to Version II 24l New Capabilities and Improvements to the Program(Version 1.1) 241 gnificant Changes in Program Behavior( Version1.1)……… .24 Index 243 Beam PROP 5.1.1 Contents·vi Preface This manual describes BeamPROP Version 5. 1. 1, which is a major version release introducing many new and improved features since the previous version Note that this manual only describes the beampROP simulation engine. Previous versions of this manual also included the cad interface. This documentation has been moved to the rsoft CaD manual BeamPROP is a highly integrated CAd tool and simulation engine for the design of photonic devices and photonic integrated circuits. The software incorporates advanced finite-difference beam propagation(BPM)techniques for simulation with RSoft's modern graphical user interface for ease of circuit layout and analysis. The benefit of good design and modeling tools is well known in the electronics industry, where both device and circuit simulation programs such as PICSeS and SPiCe have been instrumental in advancing the availability and use of integrated electronic circuits BeampRoP brings this important capability to the photonics area, and can be an extremely useful tool for research and development groups in both university and industrial environments BeamPROP is designed to function with and complement RSoft's other photonic simulation tools including FullWAVE BandSOL VE, and Grating MOD. Since it shares the same Cad tool as these products, existing users familiar with the RSoft Cad interface can begin working with BeamPROP with essentially no additional effort. The user can design a structure using the CAD tool, and then simulate either the entire structure or a small portion of it using BeamPROP The package consists of two key elements which are closely integrated together The main control program is RSoft's CAD layout system for the design of waveguide devices and circuits. In addition to device layout this program controls simulation features such as numerical parameters, input field, and display and analysis options. The BPM-based BeamPROP simulation program, which can be executed within the main program or standalone, performs the actual simulation and provides a graphical display of the field and other quantities of interest for analysis. Note that the other simulation packages, such as the FDTD-based FullwAvE engine, the PWE-based BandSoLvE engine, or the CMt- based GratingMOD engine are not part of the standalone Beam proP package, and must be purchased separately The outline of this manual is as follows: Chapter I provides installation instructions. Chapter 2 provides a technical background on the simulation techniques used by the program, along with references. Chapter 3 provides a short-hands- on introduction to the tool. Chapter 4 presents a discussion on the general usage of BeamPROP, Chapter 5 discusses the analysis capabilities of the tool, and Chapter 6 discusses mode solving. Chapter 7 documents advanced features, and Chapter 8 contains several tutorial examples. Finally, appendices documents some hints for effective use of the software and a number of file formats used in beamproP Note that to use BeamProP effectively, it is critical to have a working knowledge of the rsoft cad interface. The CAD tool is described in full in the RSoft Cad manual, which is included in the BeamproP package. The reader is strongly encouraged to study the cad layout before reading beyond Chapter 3 or this manual. Beam PROP 5.1.1 Preface·1 What's new in version 5.1 Version 5.1 of BeamPROP contains a large number of new features. These are the highlights The BeamPROP CaD has been renamed the Rsoft Photonics CAD Layout Tool Previous releases of this manual contained documentation for both the cad interface and the Beam proP imulation engine. The rsoft Cad interface, which is shared by all of rSoft s passive device design tools and serves as the main control program for the rsoft photonics suite. is now documented separately. note that this does not add any new functionality to the tools, but simply better organizes the documentation New Directory structure The installation directory structure has been changed. It is now more streamlined and better organizes the program executables and associated files. If upgrading from a previous version, please read through the Installation Troubleshooting section in Chapter l of the Cad manual in order to avoid potential problems with the path New Manuall The manual you are reading has been completely rewritten in order to a more complete and clear source of documentation Of course, a number of minor improvements have been added For full details on all changes, please consult the complete changelog for BeamPROP which is available in the README in the reAdme directory in the main installation directory. Notices This section has a list of legal and other miscellaneous information pertaining to the software Limited warranty RSofL Design Group Inc warrants that under normal use, the physical media(diskette and documentation) will be free of material defects for a period of thirty days from the date of purchase. Upon written notice, RSoft Design Group Inc will replace any defective media. No other warranty of any sort, either expressed or implied, is provided with this software. No liability for damage to equipment or data, or any other liability, is assumed by RSoft Design Group, Inc Copyright Notice Copyright C 1999-2003 RSoft Design Group, Inc. All Rights Reserved Copyright is claimed for both this manual and the software described in it RSoft Design Group M Trademarks RSoft Design Group, RSoft Inc, RSoft, The R Soft CAD, BeamPROP, FullWAVE, BandsolvE, grating /On Laser MOD, LinkSIM, Win PLOT, and RPlot are trademarks of rsoft Design Group, Inc Acknowledgments IBM is a registered trademark and IBM PC, PS/2, and os/2 are trademarks of International Business Machines Corporation. Intel is a trademark of Intel Corporation. Microsoft and ms-dos are registered trademarks and windows is a trademark of Microsoft Corporation. UNIX and Motif are registered trademarks and X windows is a trademark of 2· Preface Beam PROP 5.1.1 【实例截图】
【核心代码】
Rsoft软件中应用之一bmp的教程(全英文)。里面第八章有丰富的例子可以让你模拟练习,更快的掌握此软件!
Contents Preface What's new in version 5.1 2 Limited Warranty Copyright Notice.. RSoft design group tm trademarks Acknowledgments System Requirements…… How to read this manual 4 What should i read and when? Conventions Chapter 1: Installation 1. A Main Program Installation 1.A.1. Installation Overview∴……………………… 7 I.A. 2. Backing up the examples 1. B. Testing the Beam PROP installation.... 1. C. What Next? 10 README File 10 Technical Support& Software Upgrades.………… 10 Chapter 2: Background 2.A. Background 2. B. Review of the Beam Propagation Method (BPM) 2.B. 1 Scalar ParaxiaL bpm 12 2. B 2. Numerical Solution and Boundary Conditions 14 2. B.3. Including polarization Vector BPM 15 2. B 4. Removing Paraxiality -Wide-Angle BPM 16 2. B 5. Handling Reflections- Bi-directional BPM 17 2. B.6. Additional bPm techniques 17 2. B 7 Mode Solving via Bpm 2. C. General guidelines for USing BPl. 2.B.8.R 19 21 2. C. 1. Overview 22 2.C.2. General Philosophy for Choosing Parameters………… 22 Chapter 3: A First Tour of Beam PROP 25 3.A. Component Programs and Files..... 25 Component Executables 25 Example files 26 3. B. Tutorial Example 6 Step 1: CAD Winde 2 Step 2: Creating a New circuit 28 Beam PROP 5.1.1 Contents·i Step 4: Creating Variables 30 Step 5: Drawing Waveguides............3 Step 6: Performing a Simulation 34 Step 7: The Simulation Window 3. c What Next? .36 Chapter 4: Using BeamPROP 37 4. A Program Operation 37 4.A.l. GUI Program Operation 4.A.2. Command Line and Batch Mode Operation... 37 39 4. B. Spatial grid 40 4.C. The Launch Condition 40 4.C. 1 Creating a Launch field 41 4.C.2. Polarization Manipulation. 46 4.C.3.L: g Multiple fie 46 4.D. Advanced Bidirectional BPM Options 46 4E. Display and Output Options…… 46 4. E 1. Display Opt 47 4.E.2. Output Options 50 Chapter 5: Monitoring and Analysis of Simulation Results 53 5A. Defining a Pathway.…… 5B. Creating a monitor…… 53 5.C. Assigning a Pathway to the monitor 54 5. D. Choosing a Monitor Type ………54 Note for Phase monitor 56 5E. Monitor Options…… 6 Chapter 6: Mode Solving 59 6. A Background 59 6. B. Mode Solving Overview .59 Step 1: Create the index structure in the R Soft Cad tool 59 Step 2: Choose the appropriate mode solver and related options ··…······· 59 Step 3: Decide which modes you want to solve for 60 Step 4: Choose Launch Field 60 Step 5: Choose the mode calculation parameters ep 6: Perform the mode calculation 61 6.C. Using the Iterative Method 6C.1. Computing Modes.………………………… 6. C2 Additional notes 6. D. Using the c ation method 6.D. 1 Computing only the Mode Spectrun 6. D.2. Computing the mode profiles and propagation constants 63 6. D3. Additional notes 6. E. Additional comments 64 6.E. 1 Finding Asymmetric Higher Order Modes with the Iterative Method....64 6.E. 2 Calculating Modes from the Command line 65 6.F. Refe Chapter 7: Advanced simulation Features 67 7. A. Incorporating Polarization Effects( Vector BPM) 67 7.A.1. Vector Simulation Options 67 7.A.2. 2D Vector BPm e Contents Beam PROP 5.1.1 7.A.3.3D Vector BPM 69 7. 4. Manipulating the Polarization of the Launch Field 69 7.A.5. Vector BPM and the effective Index Calculation Option .72 7. B. Advanced Numerical options 72 7. B. 1. Numerical Scheme 7. B 2. Boundary conditions 73 7.B.3. Scheme parameter.……… 74 7. B 4. Wide-Angle features 75 7.C∴. Bidirectional( alculation Options………………….…………… 76 7. C. 1. Background 77 7. C.2. Enabling a Bidirectional BPM Simulation 7 7. C.3. Bidirectional Parameters 78 7. D Defining Simulation Regions 7..l Why Use a Simulation Region? 79 7. D 2. Defining a Simulation Region .80 7.E. Additional Material Properties…… 7E. Anisotropy........ 81 7.E. 2. Non-Linearit 81 7. F. Calculation Electrodes/ Heater Effects 81 7. F 1. Defining Electro-Optic Material 8 7. F 2. Creating Electrodes Heaters in the CaD 7. F. 3. USing the Electrode/Heater Utility 7.F. 4. Additional Notes 84 7.G. Radial BPM 85 7 G1 Using radial bpm. 85 7.G.2. Displaying 3D Results 85 7. H. Effective Index calculations Chapter 8: Tutorial Examples 87 Tutorial I- Using the Multilayer Structure Type...…......….………..!87 The Multilayer Geometry 87 De .87 Analysis setu 94 Performing the Simulation 96 Performing A Mode Calculation…………… Further explorati 100 Tutorial 2-Simulating S-bends 101 Device Layout via Actual Bends 101 Device layout via Simulated Bend Feature 107 Simulation(Offset Optimization) 110 Performing the simulation .116 USing the Actual s-Bend 116 Tutorial 3 Multimode interference or mmi device 119 Device layout 119 Analysis Setup 123 Performing the Simulation 128 Tutorial 4- Using User-Defined Index Profiles 131 Device layout 31 Computing a mode 135 Tutorial5- Using multiple Launch Fields…… ∴137 Device layout 137 Drawing the Waveguides 137 Performing the simulation 142 Tutorial 6- Leaky modes in a Hollow Fiber ··.·· ··· …147 Device layout …………………147 Beam PROP 5.1.1 Contents·v Calculating the mode 154 Tutorial 7-Using Wide-Angle BPM 159 Device layout 159 Analysis Setup… 163 Experimenting with Wide Angle Propagation 165 Closing remarks 168 Tutorial 8-USing Bidirectional BPM for Modeling Gratings 169 Device layout 169 Analysis Setup…… 175 Simulation 176 Further Exploration..... 179 Tutorial 9-USing the Electrode Feature 181 Device layout 上 lectrode Layer and Electrode Setup and Simulation………………………….187 nalysis Setup…… 192 Simulation …………193 Tutorial 10- Using The WdM Router(awg)utility..................197 Tutorial 11: Using The Simulation Region Feature 199 Device layout 199 Analysis Setup……… 202 Simulation 204 Using Simulation Region Feature 207 Summary…… References 213 Appendix A: Tips and Traps in BeamPROP 215 Common BeamPRoP mistakes 215 Some good beamproP habits to learn 215 Appendix B: BeamPROP File Formats 217 Index (".ind) File Format 7 Graph File Format 217 Standard Field File Format ··· Field File Syntax… 218 Supported Output type 219 Example field Files 220 Monitor file format.… .221 Correlation file f Mode spectrum File Format........ 222 Mode results(effective Index file format 222 Mode field file format 223 Refractive Index and Loss Profile file formats 223 Appendix C: Symbol Table Variables 225 BPM Simulation parameters 225 Advanced numerical parameters 225 Bi-Directional Parameters 226 226 Output Opt .227 Launch parameters 27 Mode solving 228 Mode Calculation Options 228 Advanced Mode Solving Features ……28 Boundary Conditions… 229 i· Contents Beam PROP 5.1.1 Additional features 229 Compute Index Profile ··········· 229 Appendix D: BeamPROP Release Notes 231 Changes from Version 4.0 to Version 5.0 231 New Capabilities and Improvements to the Program( Version5.0)…………23 Significant Changes in Program Behavior (Version 5.0) 233 Changes from Version 3.0 to Version 4.0 …234 New Capabilities and Improvements to the Program(Version 4.0) 234 Significant Changes in Program Behavior (Version 4.0) 237 Changes from Version 2. 1 to Version 3. 0.. 238 New Capabilities and Improvements to the Program( Version3.0)……………238 Significant Changes in Program Behavior (Version 3.0) 239 Changes from Version 2.0 to Version 2.1 New Capabilities and Improvements to the Program (Version 2.1) 239 Significant Changes in Program Behavior( Version2.1)…………………240 Changes fronⅤ ersion l. I to version2.0.…… 240 New Capabilities and Improvements to the Program (Version 2.0) 240 Significant Changes in Program Behavior (Version 2.0 240 Changes from Version 1.0 to Version II 24l New Capabilities and Improvements to the Program(Version 1.1) 241 gnificant Changes in Program Behavior( Version1.1)……… .24 Index 243 Beam PROP 5.1.1 Contents·vi Preface This manual describes BeamPROP Version 5. 1. 1, which is a major version release introducing many new and improved features since the previous version Note that this manual only describes the beampROP simulation engine. Previous versions of this manual also included the cad interface. This documentation has been moved to the rsoft CaD manual BeamPROP is a highly integrated CAd tool and simulation engine for the design of photonic devices and photonic integrated circuits. The software incorporates advanced finite-difference beam propagation(BPM)techniques for simulation with RSoft's modern graphical user interface for ease of circuit layout and analysis. The benefit of good design and modeling tools is well known in the electronics industry, where both device and circuit simulation programs such as PICSeS and SPiCe have been instrumental in advancing the availability and use of integrated electronic circuits BeampRoP brings this important capability to the photonics area, and can be an extremely useful tool for research and development groups in both university and industrial environments BeamPROP is designed to function with and complement RSoft's other photonic simulation tools including FullWAVE BandSOL VE, and Grating MOD. Since it shares the same Cad tool as these products, existing users familiar with the RSoft Cad interface can begin working with BeamPROP with essentially no additional effort. The user can design a structure using the CAD tool, and then simulate either the entire structure or a small portion of it using BeamPROP The package consists of two key elements which are closely integrated together The main control program is RSoft's CAD layout system for the design of waveguide devices and circuits. In addition to device layout this program controls simulation features such as numerical parameters, input field, and display and analysis options. The BPM-based BeamPROP simulation program, which can be executed within the main program or standalone, performs the actual simulation and provides a graphical display of the field and other quantities of interest for analysis. Note that the other simulation packages, such as the FDTD-based FullwAvE engine, the PWE-based BandSoLvE engine, or the CMt- based GratingMOD engine are not part of the standalone Beam proP package, and must be purchased separately The outline of this manual is as follows: Chapter I provides installation instructions. Chapter 2 provides a technical background on the simulation techniques used by the program, along with references. Chapter 3 provides a short-hands- on introduction to the tool. Chapter 4 presents a discussion on the general usage of BeamPROP, Chapter 5 discusses the analysis capabilities of the tool, and Chapter 6 discusses mode solving. Chapter 7 documents advanced features, and Chapter 8 contains several tutorial examples. Finally, appendices documents some hints for effective use of the software and a number of file formats used in beamproP Note that to use BeamProP effectively, it is critical to have a working knowledge of the rsoft cad interface. The CAD tool is described in full in the RSoft Cad manual, which is included in the BeamproP package. The reader is strongly encouraged to study the cad layout before reading beyond Chapter 3 or this manual. Beam PROP 5.1.1 Preface·1 What's new in version 5.1 Version 5.1 of BeamPROP contains a large number of new features. These are the highlights The BeamPROP CaD has been renamed the Rsoft Photonics CAD Layout Tool Previous releases of this manual contained documentation for both the cad interface and the Beam proP imulation engine. The rsoft Cad interface, which is shared by all of rSoft s passive device design tools and serves as the main control program for the rsoft photonics suite. is now documented separately. note that this does not add any new functionality to the tools, but simply better organizes the documentation New Directory structure The installation directory structure has been changed. It is now more streamlined and better organizes the program executables and associated files. If upgrading from a previous version, please read through the Installation Troubleshooting section in Chapter l of the Cad manual in order to avoid potential problems with the path New Manuall The manual you are reading has been completely rewritten in order to a more complete and clear source of documentation Of course, a number of minor improvements have been added For full details on all changes, please consult the complete changelog for BeamPROP which is available in the README in the reAdme directory in the main installation directory. Notices This section has a list of legal and other miscellaneous information pertaining to the software Limited warranty RSofL Design Group Inc warrants that under normal use, the physical media(diskette and documentation) will be free of material defects for a period of thirty days from the date of purchase. Upon written notice, RSoft Design Group Inc will replace any defective media. No other warranty of any sort, either expressed or implied, is provided with this software. No liability for damage to equipment or data, or any other liability, is assumed by RSoft Design Group, Inc Copyright Notice Copyright C 1999-2003 RSoft Design Group, Inc. All Rights Reserved Copyright is claimed for both this manual and the software described in it RSoft Design Group M Trademarks RSoft Design Group, RSoft Inc, RSoft, The R Soft CAD, BeamPROP, FullWAVE, BandsolvE, grating /On Laser MOD, LinkSIM, Win PLOT, and RPlot are trademarks of rsoft Design Group, Inc Acknowledgments IBM is a registered trademark and IBM PC, PS/2, and os/2 are trademarks of International Business Machines Corporation. Intel is a trademark of Intel Corporation. Microsoft and ms-dos are registered trademarks and windows is a trademark of Microsoft Corporation. UNIX and Motif are registered trademarks and X windows is a trademark of 2· Preface Beam PROP 5.1.1 【实例截图】
【核心代码】
标签:
好例子网口号:伸出你的我的手 — 分享!
小贴士
感谢您为本站写下的评论,您的评论对其它用户来说具有重要的参考价值,所以请认真填写。
- 类似“顶”、“沙发”之类没有营养的文字,对勤劳贡献的楼主来说是令人沮丧的反馈信息。
- 相信您也不想看到一排文字/表情墙,所以请不要反馈意义不大的重复字符,也请尽量不要纯表情的回复。
- 提问之前请再仔细看一遍楼主的说明,或许是您遗漏了。
- 请勿到处挖坑绊人、招贴广告。既占空间让人厌烦,又没人会搭理,于人于己都无利。
关于好例子网
本站旨在为广大IT学习爱好者提供一个非营利性互相学习交流分享平台。本站所有资源都可以被免费获取学习研究。本站资源来自网友分享,对搜索内容的合法性不具有预见性、识别性、控制性,仅供学习研究,请务必在下载后24小时内给予删除,不得用于其他任何用途,否则后果自负。基于互联网的特殊性,平台无法对用户传输的作品、信息、内容的权属或合法性、安全性、合规性、真实性、科学性、完整权、有效性等进行实质审查;无论平台是否已进行审查,用户均应自行承担因其传输的作品、信息、内容而可能或已经产生的侵权或权属纠纷等法律责任。本站所有资源不代表本站的观点或立场,基于网友分享,根据中国法律《信息网络传播权保护条例》第二十二与二十三条之规定,若资源存在侵权或相关问题请联系本站客服人员,点此联系我们。关于更多版权及免责申明参见 版权及免责申明
网友评论
我要评论