CST STUDIO SUITE 2015已發(fā)布

來(lái)源：更新時(shí)間：2024-08-08 閱讀：

今天早上從實(shí)驗(yàn)室回來(lái)，桌子上已經(jīng)放著CST STUDIO SUITE 2015的包裹了。

Spotlight of CST STUDIO SUITE 2015
CST STUDIO SUITE
- Support of 3D Space Mouse from 3DConnexion
- Measurement tool to display dimensions in the model view
- Modelling
* Transform without dependency
* Picking of similar faces
- Parametric CAD import from SolidWorks 2013 and PTC Creo Element 5.0
- New settings in Parameter Sweep dialog box (import csv file, Options)
- SAM: new workflow wizard for Antenna Array Design
- 1D Plots: polar plots now support logarithmic plotting and userdefined ticking
- 3D Field Plots: new feature to plot / hide out of range colour (colourmap dialogue)
- DC system provides complete property overview/statistics for all jobs
CST MICROWAVE STUDIO
- Spatially varying material models for cylindrical and spherical structures (T)
- Temperature dependent lossy metal(T)
- S-Parameter / Touchstone importfor thin panel material (T)
- New broadband fieldsource imprint (T)
- Intel Xeon Phi accelerator support (T)
- Improved data handling for MPI and DC (T)
- Direct solver improvement for very large models (F)
- Farfield probes (F)
- Several unitcell improvements (see Antenna Array Workflow) (F)
- Nearfield sources (F+A)
- Support of Quad Meshes (I+M)
- RCS Map plot(A)
- Angular- and frequency-dependent coating for RAM (A)
CST EM STUDIO
- New 2D MQS time domain solver
- New 3D EQS time domain solver
- Contact resistance (Js)
- Improved coupling with DS
- Open boundaries for all solvers
CST PARTICLE STUDIO
- Portmode solver with target frequency
(e.g. to handle very high mode numbers, as in gyrotrons)
- Wakefield solver supports user defined bunch shapes
- Time integrated surface losses (useful in combination with wakefield analysis to predict thermal problems)
- Fourier template supports spectrogram plots
CST PCB STUDIO
- New IR drop solver
- Decap Tool including discrete optimization and Pareto front calculation
- Improved TET mesh generation for PCBs
- Automatic tagging in CST Boardcheck
CST CABLE STUDIO
- Improved handling of cables close to conformal structure parts (TLM)
- New cable library
- Parametrization of cables (VBA commands and history list)
-> Parameter Sweeping and Optimization
- Twisting of cable bundles
CST DESIGN STUDIO
- Prepare HSPICE model from DS
- Improved handling of IBIS models
- Time Signal Library
CST MPHYSICS STUDIO
- New thermal transient solver on tetrahedral mesh
- Thermal contact resistance
- Nonlinear perfusion coefficient (BioEM)
- Thermal conductance matrix, link to circuit simulation

New Features of CST STUDIO SUITE 2015
General / EnvironmentSupport for 3DxMouse from 3DconnexionCommon 1D Signal library for 3D and schematic simulationAdded workflow for antenna array designNew tiling engine to support tiling on different screensAdd macros to customized ribbon tabsCopy View allows copying with arbitrary sizeImproved parameter list with new user interfaceDouble-Click on CST files, project opens in existing instance of CST STUDIO SUITEParameter sweep: Import parameter combination as ASCII fileImage exportCustom sizeAdded support for PNG and JPG imagesNew mirror plane visualization feature
3D ModelingTransform without dependencyNew dimension feature allows direct visualization of distances and angles within the modelPick similar facesPick Points on working planePicking on field sourcesUpgrade to ACIS R24
Import / ExportAdded import support for Autodesk Inventor V2014, CATIA V5 R23, Parasolid 26, Solid Edge ST6, SolidWorks 2014 and Siemens NX 9Added support for SAT/SAB R24 Parametric Import of 3D CAD for SolidWorks 2013 and PTC Creo Element 5.0Export Image with user defined size
EDA ImportSupport of IPC-2581 formatOptional creation of PCB solder-masks as conforming to the 3D geometry of top-layer conductors
HexahedralMeshAccuracy improvements for matrix coefficient calculationsReduced memory consumption for internal geometric data representationSupport of sub-volume monitors for MPIAccuracy improvements for probe field calculationsReduced file sizes of matrices and volumetric model dataChanged default to prefer enhanced FPBA matrix calculation over other hex based matrix calculation methodsImproved performance of HEX mesh line generation for complex geometries
TetrahedralMeshPerformance optimization of geometry pre-processing for planar geometries
CST MICROWAVE STUDIO SolversSimulation ribbon tab is now tailored to the selected solver
T-Solver (Hexahedral Mesh)Support of spatially varying material models (radial dependency)Time dependent conductivity for lossy metal1D time power loss curve for surface impedance materialsInhomogeneous port accuracy enhancement for the generalized port mode solver (preview)Selective calculation of higher order port modesAbsorption of unconsidered mode fields for homogeneous waveguide ports1D power loss curve for port absorptionExtended online TDR result to 50% time shift optionOption to shrink farfield monitoring to structure box Reduced result download (1D signals and farfield monitors) for MPIShared file server access for MPIOption to perform one single remote DC calculationSupport of Xeon Phi Hardware AccelerationImproved broadband excitation technique for near field sources
T-Solver (TLM Mesh)PBA is available for the TLM meshCables and wires are more accurately routed close to metal surfacesVisualization of currents on wires and common mode cable currentsIntermediate S-Parameters and FD results are available during the solver runLinux is now fully supported
F-Solver (Tetrahedral Mesh)Combine results for field source monitorsAutomatic separation of polarization degenerated higher order port modesExcitation of single-ended port modes with native single-ended field resultsIntroduced near field sources on surface impedance materialImprovedrobustness for field source monitors
F-Solver (General Purpose Sweep with Tetrahedral Mesh)Direct and iterative solver for large problemsActive element pattern from parameter sweep over the unit cell scan angleFloquet port mode field polarization angle definition independent of phiDiscrete face ports and lumped elements also supported with unit cellsFarfield probe calculation for frequency samplesField source imprint on open boundaries, lossy metal, and ohmic sheets
F-Solver (Fast Reduced Order Model Sweep with Tetrahedral Mesh)Broadband field probes and farfield probes All 3D monitor types are now supportedPerfectly matched layer (PML) open boundary conditionBroadband reduced order model for waveguide port modes now default
E-Solver (Tetrahedral Mesh)Parametric storage of mode frequencies and Q factors
A-SolverAdded support for angular and frequency dependent materialsAdded support for perfect absorber materialsAdded creation of RCS MapsAdded support for near field sourcesAdded RCS result for range profile calculations
I-SolverSupport of hybrid Quad/Tri MeshesLocal mesh properties are now supported for near field sources
M-SolverSupport of hybrid Quad/Tri Meshes
CST EM STUDIO Solvers
M-Static Solver (Tetrahedral Mesh)Iron loss computationOpen boundary conditionAzimuthal magnetization for magnets
J-Static Solver (Tetrahedral Mesh )Contact resistance
LF Solver (Tetrahedral Mesh )Impedance matrix computationOpen boundaries for EQS- and MQS-solver
LF Time Domain (MQS) Solver (Tetrahedral Mesh )Rigid body motion for planar meshesNonlinear field circuit coupling to SaberRD and Design StudioAzimuthal magnetization for magnets
New transient EQS time domain solver
CST PARTICLE STUDIO SolversArbitrarily shaped bunches for the Wakefield SolverImport and handling of Tet-based fields from Statics- and Eigenmode-SolverParticle current- and charge- monitors for the PIC solverAlignment and stabilization of GPU- and CPU-algorithms in the PIC solver
CST PCB STUDIO3D bondwire visualizationInteractive shape editing in default viewerImproved display of component and pin namesAuto-Tagging of netclass types and components for CST BOARDCHECKImport and visualization of DIE stacks (including bond wires) and BGAs New direct solver for IR-Drop analysis (in order to simulate large examples)New device type Integrated Circuit in order to enhance the IR-Drop analysis task
Power-Integrity SolverAccuracy enhancement for mounting inductancesImproved convergence behavior upon reducing mesh stepNew dialog box which enables to generate Simulation-Projects.
Decap ToolAutomatic sweeping and optimization of capacitor configurationsGeneration of Pareto front representing best configurations for specific price
CST CABLE STUDIOParametrization of cables (VBA commands and history list)Cable LibraryTwisting of multiple cable groups Unification of radiation/irradiation workflow between Transient- and AC-Task
CST MPHYSICS Solvers
Thermal Stationary Solver0D temperature monitorGUI for nonlinear blood flow coefficients
Thermal Transient SolverNew Tet-based transient thermal solver
CST DESIGN STUDIOBlocksSelectable, parasitic models for lumped R/L/C elementsNew block type for file blocks: Project blocks now copy their files into the project instead of referencing them as file blocks doIBIS block: Improved robustness, support for more model types (I/O_open_drain / _sink/ _source, Open_sink/ _drain / _source ).Unified CST STUDIO SUITE blocks Enhanced CST EM STUDIO support: Automatic solver start for linear R/L/C matrices, state space based (nonlinear) L-Matrix supportSupport of CST MPHYSICS STUDIO blocks for linear, thermal simulationsTasks / ResultsFD Tasks: Frequency limited blocks may now be treated as in time domain. The frequency response is not used directly, but an approximated version of it. The approximation is guaranteed to be broadband, causal and passiveTD Task: Excitation signals may be named and can be stored/restored into/from the global signal libraryTD/S-Parameter Tasks: More secondary results are available: Y/Z parameters, VSWR and Group delayDC/FD/TD-Tasks: 'HSPICE® input netlist' file exportTD Task: Nyquist down sampling option for 1D signal plottingBlock Simulation Tasks: Parameter sweep and Optimizer included as solver typesSchematicSelectable, predefined pin layouts for blocksImproved routing Unified zooming behavior (same behavior as the 3D view ofCST MICROWAVE STUDIO / CST EM STUDIO / ...)New Filter synthesis tool: Filter Designer 2D, driven by Nuhertz Technologies®Device LibrarySupport for touchstone descriptions
Results / Post ProcessingPost Processing 1DNew Polar Plot Settings dialog boxAdded dB scaling option for range profile visualizationPost Processing 2D/3DNew color mapping options (hide out-/inside range)Hot color rampImproved plot quality (HEX Mesh)Faster / less memory on first time visualizationImproved viewer responsiveness when traversing the navigation treeResult plots under LinuxCombine results for near field source monitors from F-Solver and I-Solver

周二去參加了今年的UK Customer Workshop。按照慣例，CST的Senior Application Engineer：Marc，介紹了CST STUDIO SUITE 2015的新功能。（此君是接下來(lái)3月25號(hào)的Webinar的主講人）
下面總結(jié)一下我自己記錄的一些新功能：（完整的新功能列表之前已經(jīng)列出來(lái)了）
• 支持3D space鼠標(biāo)。
• 在View tab里面新增“Dimension”功能。

可以在模型上直接顯示線段或角度信息。

不過(guò)要顯示角度信息必須是一個(gè)“實(shí)際的”角（must share a common point）
• 在“Modelling” tab里新增“Pick Similar Faces”功能。

這個(gè)功能可以只能同時(shí)選中所有“相同”的面。例如，在“pick similar faces”模式下，把鼠標(biāo)移至左邊的長(zhǎng)方形面上，design enviroment會(huì)只能提示右邊的相同結(jié)構(gòu)。

雙擊左邊的面，右邊的也同時(shí)選中。

•公式列表中可以直接顯示公式的當(dāng)前數(shù)值。公式列表中新增filter，可以直接搜索需要的公式。

•Transform模型的時(shí)候如果選擇“copy”，可以設(shè)置每個(gè)copied object為獨(dú)立object。設(shè)置獨(dú)立之后修改任何一個(gè)object都不影響其它的object。適合陣列或者濾波器應(yīng)用。
•History list中可以添加注釋。

•Simulation tab里的圖標(biāo)將根據(jù)所選擇的求解器類型而改變。
•時(shí)域求解器Special新增“Material”標(biāo)簽。

•在宏當(dāng)中可以創(chuàng)建參數(shù)用于將某一部分object考慮/排除于仿真中。（翻譯的有點(diǎn)兒拗口，具體內(nèi)容可以關(guān)注介紹新版本的webinar）
•可以從文本文件中導(dǎo)入?yún)?shù)掃描的數(shù)值。（很適合不規(guī)律的參數(shù)掃描）
•在資源管理器（就是Windows）里雙擊模型文件會(huì)在當(dāng)前的front-end界面打開(kāi)模型。避免打開(kāi)過(guò)多front-end導(dǎo)致licence不夠。
•可以在parameter table里直接打開(kāi)緩存的模型。非常適合觀察每一個(gè)參數(shù)條件下模型的具體情況。前提必須在Time Domain Solver parameter對(duì)話框里勾選“Store result data in cache”。

•2D/3D results里可以隱藏設(shè)定值之外的plot。
•新增用戶library。模板和宏都可以存在library當(dāng)中，之后升級(jí)新版本的時(shí)候可以繼續(xù)使用之前的library。

•時(shí)域求解器支持Spatially varying materials。適用于航空應(yīng)用，比如隱形戰(zhàn)斗機(jī)雷達(dá)測(cè)試用的sensor。（貌似目前只能從VBA創(chuàng)建這種材料類型）
•時(shí)域場(chǎng)源Time domain field source coupling。看演示應(yīng)該就是以前的near field source，不過(guò)現(xiàn)在升級(jí)到workflow級(jí)別。適用于大型模型中包含小細(xì)節(jié)，比如油罐車上的通信天線、拋物面天線等等。
•加速粒子應(yīng)用中可以直接選擇需要的端口模式。例如可以直接選擇第500個(gè)模式，否則需要12個(gè)小時(shí)先計(jì)算前499個(gè)模式。
•支持Intel Xeon Phi加速器。Tesla支持K40和K80。
•DC/MPI中提高了數(shù)據(jù)傳輸效率。
•改進(jìn)線纜處理效率。
•接下來(lái)的Service Pack 1里會(huì)新增線纜library。比如Ethernet C5e雙絞線。
•雙絞線可以在cross-section里定義rotation的數(shù)值。
•PCB應(yīng)用里提供De-coupling capacitor優(yōu)化算法。
•新增Temperature dependent lossy metal。