[行业软件]Keysight SystemVue 2020.1 [复制链接]

Keysight Technologies, Inc., a leading technology company that helps enterprises, service providers and governments accelerate innovation to connect and secure the world, announced SystemVue 2020, which includes the RF_Link between Spectrasys & Dataflow engines for accurate RF modeling, workflow & co-simulation integrations, updated 5G NR Baseband Verification Library, complex environment modeling for Automotive Radar, SpectraSys Improvements, and more.
PathWave System Design (SystemVue) 2020 Update 1.0 Release Notes


Enhancements

Data Flow Analysis/Models
- Added new parameter to ReadSignalStudioFile to allow the user to playback the normalized or unnormalized file (this only applies to files generated by SystemVue or ADS).
- Added support for overlapped subarrays in models BeamformerWeights, Splitter_M, and Combiner_M, which allow one element to be used by multiple subarrays. It enables the generation of multiple beams in a single simulation.
- AntennaArrayTx/AntennaArrayRx models can now specify polarization using Etheta/Ephi, LHC/LHC, or Ellipse Axial Ratio and Tilt Angle when Element Pattern Type is set to Isotropic, Three Sector Antenna for Y-Z URA, or Cosine Antenna.
- AntennaArrayTx model can now decompose far-field envelope signal (Output port) into any one of the polarization pattern component pairs Etheta/Ephi, Eleft/Eright, Eco/Ecross, Ludwig 2 (Az/El), Ludwig 2 (Al/Ep), Ludwig 3 (H/V) (Polarization1Output/Polarization2Output ports).
- AntennaArrayRx model now takes into account Element Pattern Polarization when computing output envelope matrix signal but still assumes each element is perfectly matched (in polarization sense) to the incoming signal.
Phased Array Analysis
- Made complex polarization patterns available in the dataset of Phased Array Analysis (see variables ArrayMeas_Polarization1_ComplexPattern and ArrayMeas_Polarization2_ComplexPattern). Previously, only their magnitude was available in the dataset (see variables ArrayMeas_Polarization1_Pattern and ArrayMeas_Polarization2_Pattern).
- Added support for easy creation of Beam Pattern UV Plot graphs and Beam Pattern Cut (Theta/Phi/U/V) graphs (see Easy Graph Plotting of Beam Patterns).
RF_Link Simulation
- Delay introduced in each path (due to filter transients) is now available in the dataset with the extracted behavioral data (see variables PathDelay and PathDelayInSamples).
- Added support for the VarAmp and ATTN_Ctrl models (see example ExamplesRF Architecture DesignVarAmpAGC_RF_Link.wsv).
Baseband_Link
- Renamed Baseband_Link part and Baseband_Link, Baseband_LinkCx, Baseband_LinkEnv models to Baseband_Link, Baseband_Link, Baseband_LinkCx, Baseband_LinkEnv respectively.
- Added new examples to demonstrate different use cases of Baseband_Link:
. 5G NR Downlink TX example (ExamplesTutorialsAlgorithm_DesignBaseband_Link3GPP_NR folder)
. Radar RF modeling examples (ExamplesTutorialsAlgorithm_DesignBaseband_LinkRadar folder)
System Analysis/Models
- The Frequency Comb source now supports phase noise.
Platform
- Added support for setting axis' range and units for 3D Graph.
- A new improved error window allows the filtering of messages based on type (Error/Warning/Message) as well as associated workspace item type (Analysis/Design/Equation/etc.) (see Error Log).
- The Parameter Synchronization Tool enables easy comparison and synchronization of the matching model or design parameters. Both parts and design parameters can be synchronized. Either (1) select one or more parts on a schematic, right-click, and select "Sync Part Parameters…" or (2) select one or more designs in the workspace tree, right-click, and select "Sync Design Parameters…".
- New 3D graph visualization palettes, including standardized ones like: inferno, viridis, and cividis.
- New graph color themes, including dark, light, and PathWave palettes, which are found in Tools > Options > Graph.
5G Advanced Modem Library
- All features conform to V15.4.0
- New functions
. Downlink
.. Supported NR DownLink frame synchronization method using CP+DMRS.
.. Supported user-defined Bandwidth setup in NR Downlink source and receiver.
.. Supported VSA setup file generation for MIMO configuration.
. Uplink
.. Supported user-defined Bandwidth setup in NR Uplink source and receiver.
- EVM function update (NR_DL_EVM and NR_UL_EVM)
. Supported user-defined Bandwidth setup.
. Updated NR DownLink EVM model to support MIMO measurements.
. Updated NR EVM model to support composite Magnitude and Phase error measurements.
. Updated NR EVM model to support EVM Window and Symbol Timing setup.
- Test Models update
. Updated NR DownLink Test Model example (NR_DL_TM.wsv) to support the latest Test Model defined in 38.141-1 / 38.141-2 of version V16.1.0 (2019-09).
WLAN 802.11ax Library
- All features of 802.11ax library comply with 802.11ax PHY in the IEEE P802.11ax/D1.2, April 2017 specification.
- Added new 802.11ax receiver subnet WLAN_11ax_Receiver. It can demodulate 802.11ax waveform to get the outputs of Constellation, Channel coded bits and MPDU bits.
- Supported 80+80MHz bandwidth in 802.11ax source and EVM model.
- Added the CombineEqualizerUsingLLTF, CompensateSamplingClockError, RemoveEqualizerPhaseRamp, ActiveAntennaThreshold, TrackingMode, EqualizerSmoothing, and EqualizerSmoothingLength parameters for WLAN_11ax_EVM model to be consistent with VSA 89600.
- Added two new examples for 802.11ax BER and FER simulation:
. ExamplesBaseband VerificationWLANWLAN_11axWLAN_11ax_Rx_AWGN.wsv
. ExamplesBaseband VerificationWLANWLAN_11axWLAN_11ax_Rx_Fading.wsv
- Added three new examples for 802.11ax VTB simulation.
. ExamplesVTBWLAN_11axTxWLAN_802.11ax_Source.wsv
. ExamplesVTBWLAN_11axTxWLAN_802.11ax_Tx.wsv
. ExamplesVTBWLAN_11axRxWLAN_802.11ax_ReferenceSensitivity.wsv

Radar Baseband Verification Library

Example and Folder reorganizations:

<Electronic Warfare>
- Proposed globally accepted EW classifications (ES, EA and EP) from reference textbooks.
- Renamed existing EW examples with the newly proposed EW classifications.
- ES_ChannelizedTx/Rx are combined as one example.
- ES_DOA angle measurement examples are combined and updated for usability.
<Environment Modeling>
<Obsolete Examples>
- Contains old examples that R&D will cease to support after 2020U1 release.
<PhasedArray Performance Modeling>
- Radar_PhasedArray_DataFlow.wsv
. Demonstrates phased array RF impairment modeling using DataFlow simplified amplitude and phase shifting.
. Radar_PhasedArray_SpectraSysRFLink.wsv
. Demonstrates phased array RF impairment modeling using Phased Array RF_Link and Spectrasys phased array RF models.
. Customized RF impairment modeling using ADAR1000 frequency-dependent chipset model is available for user evaluation.
- ADBF (Adaptive Rx Beam Forming) Example updated for improved usability.
<Radar System Design>
- Updated AntennaTx/Rx based pattern plotting example and scanning example.
. AntennaTRx_BasicTest.wsv
. AntennaTRx_Scan_Modes.wsv
- Established new Monopulse Phased Array Radar Tracking And Scan Example Workspace (PhaseArrayRadar_TAS.wsv):
. Realized monopulse phased array radar scanning with predefined beam grids.
. Realized simplified radar target tracking workflows for multiple moving targets.
. Dynamic display of the workspace include
.. Antenna scan and target detection confirming with beam grids
.. Phased array antenna beam patterns
.. Target tracking trajectories plotting
<Signal and Data Processing>
<Signal Generation>
- Moved the "AmbiguityFunction" example folder into this folder.
- Established the "Phase_Coding_Signal.wsv" example which shows how to generate the phase coded signals, including Barker code, PRN code, ChirpLike code (Frank Code, P1 to P4 and Px Code) and PolyTime (T1(n), T2(n), T3(n), T4(n)) example folders. Also enhanced parameter setting and example note.
- Modified the "CW_Signal.wsv" example with parameter setting and example note enhancements. Single-frequency CW signal generation case is added.
<TR Module Modeling>
- Radar_RF_Modeling_SingleTRx.wsv
. Presents a simplified single channel Tx and Rx RF impairment modeling.

The original examples and the new ones added for 2020U1 are all reorganized inside these folders. The help documentation is also updated for this change.

Multiple Ray Tracing for Automotive Radar Complex Scenario Analysis
- Enabled "Phase Center" checkbox in antenna array pattern import tab to enable the user to include element spacing incurred phase shifts in antenna patterns.
Documentation
- Reorganized and consolidated all Sys-Parameter related documentation section under the Using SystemVue > Sys-Parameters section.

Fixed Issues

Data Flow Analysis/Models
- Fixed issue with AntennaArrayTx model, which ignored E-phi component when pattern files in HFFS, CST format were used.
RF_Link Simulation
- Fixed issue with modeling accuracy of the RF system phase response when the magnitude response was almost flat. This issue was causing incorrect (better than expected) EVM results. This may result in longer delays being introduced in the RF path modeled compared to previous releases.
System Analysis/Models
- Fixed issue with incorrect intermods after mixer and amplifier with a frequency comb as the input signal.
- Fixed issue with IM2 term of f1-f2 not showing up in power spectrum with a frequency comb as the input signal.
- Fixed issue with Multisource part dialog corrupting the descriptions of the individual source signals defined when more than one source signal was added.
- Fixed issue where TIMCP3 measurement with frequency comb input signal did not match TIMCP3 measurement with equivalent multi-carrier input signal.
- Fixed issue with mixer generating a higher than expected DC IM2 component.
Automotive Radar System Design Library
- Fixed issue with gain and Uni/BiDirectional Raster scan output signal inconsistencies for AntennaRx model compared with AntennaTx model (same issue fixed prior to the System Design (SystemVue) 2020 release).
- Fixed issue with Bi/UniRaster Scan false output issues of AntennaPolarizationTx and Rx model as compared with AntennaTx model (same issue fixed prior to System Design (SystemVue) 2020 release).
Radar Baseband Verification Library
- Fixed issue with gain and Uni/BiDirectional Raster scan output signal inconsistencies for AntennaRx model compared with AntennaTx model (same issue fixed prior to System Design (SystemVue) 2020 release).
- Fixed issue with Bi/UniRaster Scan false output issues of AntennaPolarizationTx and Rx model as compared with AntennaTx model (same issue fixed prior to System Design (SystemVue) 2020 release).

Multiple Ray Tracing for Automotive Radar Complex Scenario Analysis

Fixed issue with the amplitude error issue in MRT GUI:
- The AutomotiveRadar_RayTracing_SignalVerification.wsv example is modified accordingly, with Ae_Term (Lamda^2/(4*pi))) additions in all Rx channels (Now both the returned power and standard PEC sphere RCS agrees well with theoretically calculated values). The RayTracing Channel code and .bin file are also updated for the missing sqrt(1/(4*pi)) for this fix.
- The AutomotiveRadar_RayTracing_Demo.wsv example is modified accordingly, with Ae_Term (Lamda^2/(4*pi))) additions in all Rx channels. The .bin files both for the double-car scenario and complex scenario are also updated due to this fix.
SystemVue is a focused electronic design automation (EDA) environment for electronic system-level (ESL) design. It enables system architects and algorithm developers to innovate the physical layer (PHY) of wireless and aerospace/defense communications systems and provides unique value to RF, DSP, and FPGA/ASIC implementers. As a dedicated platform for ESL design and signal processing realization, SystemVue replaces general-purpose digital, analog, and math environments. SystemVue "speaks RF", cuts PHY development and verification time in half, and connects to your mainstream EDA flow.

In this video we show the Electronic System Level, or ESL, design flow from Keysight based on SystemVue – the fastest way to design and validate challenging physical layer communications systems, where baseband and RF must work together.

Keysight Technologies Inc. is the world's leading electronic measurement company, transforming today's measurement experience through innovations in wireless, modular, and software solutions. With its HP and Agilent legacy, Keysight delivers solutions in wireless communications, aerospace and defense and semiconductor markets with world-class platforms, software and consistent measurement science. The company's nearly 10,500 employees serve customers in more than 100 countries.

Product: Keysight SystemVue
Version: 2020
Supported Architectures: x64
Website Home Page : www.keysight.com
Language: english
System Requirements: PC *
Supported Operating Systems: *
Size: 2.6 Gb


* System Requirements:


System Requirements

Operating System
Practical Minimums: Windows 7 SP1, 64-bit
Recommended Basic: Windows 10, 64-bit
Recommended 5G, Radar, and Phased Array: Windows 10, 64-bit
CPU
Practical Minimums: Single-core
Recommended Basic: Quad-core and above
Recommended 5G, Radar, and Phased Array: Quad-core and above
Hard disk
Practical Minimums: 10 GB free space
Recommended Basic: 100 GB free space
Recommended 5G, Radar, and Phased Array: 100 GB free space
RAM
Practical Minimums: 4 GB RAM
Recommended Basic: 16 GB RAM and above
Recommended 5G, Radar, and Phased Array: 32 GB RAM and above
Display
Practical Minimums: 1280 x 720
Recommended Basic: 1920 x 1200
Recommended 5G, Radar, and Phased Array: 1920 x 1200
Software Security
Practical Minimums: USB hardware key
Recommended Basic: Wired LAN, or Wireless LAN
Recommended 5G, Radar, and Phased Array: Wired LAN, or Wireless LAN
LAN Connection
Practical Minimums: Not required
Recommended Basic: Recommended
Recommended 5G, Radar, and Phased Array: Recommended
Test Instrument Interface
Practical Minimums: Not required
Recommended Basic: LAN
Recommended 5G, Radar, and Phased Array: LAN
Touch User Interface
Practical Minimums: N/A
Recommended Basic: Not supported
Recommended 5G, Radar, and Phased Array: Not supported


关于激活
1、本站下载解压，双击systemvue_2020_shp_win_x64.exe，安装软件
2、打开Crack文件夹，复制Keysight替换主程序目录
C:Program FilesKeysight
3、创建环境变量
变量名：SYSTEMVUE_LICENSE_FILE
变量值：C:Program FilesKeysightlicense.lic
4、双击netapi32.reg 导入注册表项
5、激活完成，运行即可免费使用，如有问题，重启电脑

支持一下，谢谢

Keysight SystemVue 2020.1

Keysight SystemVue 2020.1

Keysight SystemVue 2020.1

支持一下，谢谢

谢谢，支持一下。。。。。

谢谢分享！！

谢谢分享！！！！

没有License文件啊？