Keysight SystemVue 2018.1 is a focused electronic design automation (CAD) environment for system-level electronic design (SLE) applications. SystemVue enables system architects to architect and design innovative physical layer (PHY) designs for communications, wireless, and aerospace/defense systems, and is of particular value to deployed RF, DSP, and FPGA/VLSI designs. A platform dedicated to SLE design and signal processing, SystemVue replaces the digital environment with analog and multi-functional math. SystemVue “optimizes RF,” cutting PHY verification and development time in half and connecting to your core computing needs.

SystemVue software is a dedicated CAD environment for system-level electronic design. SystemVue enables systems engineers and algorithm developers to optimize the physical layer (PHY) of next-generation wireless systems and aerospace/defense communications, and provides unique integrated capabilities for designers using RF components, DSPs, FPGAs, and ASICs. As a dedicated platform for system-level design and signal processing, SystemVue replaces general-purpose digital, analog, and math environments. SystemVue reduces physical design and device verification time by half, and provides the ability to import results into the main design flow.

As a dedicated platform for system-level design and signal processing, SystemVue replaces general-purpose digital, analog, and math environments. SystemVue reduces physical design and device verification time by half.

PathWave System Design (SystemVue) is a significant release. The increasing coexistence of RF and digital technologies requires designers to connect their baseband and RF designs earlier in the development cycle. The 2020 release of PathWave System Design targets RF system designers in 5G and radar applications. This release enhances our best-in-class solution for modeling RF faults in modern communications and radar systems.

Keysight SystemVue Key Features

  • Windows® application easy to use, multi-threaded, multi-threaded
  • Flow-based design support for design patterns (blocks with GUI in C++ – languages ​​or mathematics, methods)
  • Building floating-point and fixed-point models in C++
  • Debug models through the Microsoft Visual Studio® interface standard familiar
  • Support hundreds of functions and syntax mathematics-oriented communication
  • Both the text interface and the GUI for creating models, simulating and verifying easily
  • Support for broadcasting the RF carrier complex, synchronizing the data flow depending on time and the data flow on the physical modern high-performance with the effect of RF, including flow measurement through smartphones and radio awareness
  • Schedule is enhanced with multi-speed original allows the topology of the complex
  • Multithreaded for faster simulation on multi-core CPUs RF, DSP, communications, logic, and block the channel that is included in the base platform
  • Interactive I/O over TCP / IP using the tool built-in directly in data flow simulation or from the command line
  • IIR, IIR and other types of filter media similar
  • See time domain and frequency interactive graphics