Official software distributor AWR of Cadence Design System.

«Peter Soft» Ltd. is a company, one of the directions of which is the development of AWR software.

AWR of Cadence Design System software helps design engineers significantly reduce development time and cost for components, circuits, systems and subsystems used in wireless, high-speed wired, broadband, aerospace and defense and electro-optical applications.

Advantages AWR Design Enviroment of Cadence Design System:

Инновационный подход

Продвинутые методы

Автоматизация проектирования

The development of RF/microwave integration equipment and technologies is directly due to the emergence of new radar and communication systems. System modeling helps process engineers better analyze the relationships between the characteristics of individual components and the performance of the system as a whole. Whether it is research of fundamentally new architectural systems with high spectral efficiency or determination and verification of parameters of components of such systems, the process of designing devices of modern high-frequency electronics should be based on the use of powerful tools of modeling and testing, which provide obtaining and analysis of results at the whole system level.

Accurate assessment and optimization of component characteristics prior to prototype manufacturing and testing can significantly save design time and costs. When it comes to RF components, design analysis tools should be available to the developer, which can have a serious impact on the electrical characteristics of the device. Such features include, for example, transistor nonlinearity, system sensitivity to terminal resistance mismatch, dispersion, parasitic linkages, and other high frequency phenomena. The modeling techniques behind such tools should support detailed performance analysis and a typical set of measurements for any device being designed.

When the project enters the final stage of technological control, its complexity and number of parts is significantly increased compared to early sketches, so the priority of developers shifts from simulation of electrical characteristics to static analysis and consideration of production factors, including control of design norms and verification of compliance of topology of production of printed circuit boards, monolithic (MIS) or radio frequency (RFIS) integrated circuits or modular devices, which require the availability and support of producer component libraries, as well as the ability to export and import topology data in GDSII, DXF, and IPC-2581 or ODB formats for compatibility with topology tools used in most enterprises.

Structure AWR Design Enviroment of Cadence Design System:

1. Microwave Office

Microwave Office is a universal software solution for the development of all kinds of radio frequency and microwave devices, from simple filters to monolithic integrated circuits. Highly valued for its intuitive user interface, the unique architecture of Micronave Office is able to seamlessly integrate its own highly efficient and innovative software tools with the specialized programs of partner companies, helping to complete the development phase of any high-frequency project as soon as possible.



  • Leverage multiple model libraries from leading manufacturers of various components and chips
  • Advanced simulators for fast and accurate modeling of linear and nonlinear circuits of any complexity
  • Fully integrated EM simulators for verification and analysis of planar and full 3D structures
  • Support for Best Practices for Load Matching Analysis
  • Linear and nonlinear stability analysis
  • DRC/LVS — Design Standards Control and Topology Compliance Analysis to the scheme
  • Intelligent tools for synthesis of matching circuits and filters (optional modules)
  1. Reliability
    The industry ‘s best harmonic balance simulator provides fast and accurate convergence of highly nonlinear circuits with a large number of transistors and/or a number of harmonics.
  2. Efficiency
    Efficiency High level of design process automation, intuitive user interface, and platform connectivity simplify and speed engineers at each stage of the project.
  3. Integration
    The possibility of joint modeling on circuit, system and electromagnetic levels provides unparalleled depth of analysis, including through the presence of virtual test schemes according to world testing standards.

2. Visual System Simulator

Visual System Simulator is a system design module designed to develop modern wired and wireless communication systems, including 5G, LTE, WiMAX, and WLAN 802.11a/b/g devices, as well as radar and satellite communication systems. VSS enables the development of system architectures and the selection of optimal specifications for each component of the system.



  • Ultra precise behavioral models of components and devices
  • Simulation of Digital Modulation Systems bending around
  • Joint Simulation with Microwave Office Schemas
  • Advanced Cascade Path Analysis and Frequency Band Scheduler
  • Testing Systems for Compliance
  • Radar and Communication Design Libraries 5G
  1. Speed
    An extensive library of behavioral models of components with many characteristics taken into account accelerates the construction of the system architecture and the specification of each of its elements.
  2. Flexibility
    The ability to apply proprietary code blocks to C, Matlab, or NI LabView units, as well as to connect measuring equipment through the TestWave interface, provides more opportunities for successful completion of the project.
  3. Compatibility
    Virtual test schemes built to the world ‘s leading standards allow you to test your own developments in close to real-world conditions.

3. Analog Office

Analog Office is a flexible and accurate design system for analog and RF integrated circuits, combining the best software tools for creation, synthesis, simulation, optimization, topology creation and verification for all stages of development up to the issue of work masks. Analog Office simplifies design, improves performance, and enables you to prepare your product for repetitive manufacturing much faster.



  • Advanced simulators for fast and accurate modeling of linear and nonlinear circuits of any complexity.

  • Create topologies based on parasitic relationships.

  • Fully integrated EM simulators for verification and analysis.

  • Statistical analysis of yield.

  • Use PDK from leading component and chip manufacturers.
  • DRC/LVS — control of design standards and topology compliance analysis.
  1. Efficiency
    Perfectly synchronized circuit and topology editors, integrated RF/analog circuit modeling, and parametric electromagnetic analysis of planar and arbitrary 3D structures.
  2. Accuracy
    iNet™ and ACE ™ technologies for accurately modeling interconnections and evaluating the impact of parasitic components in integrated circuits created in an embedded topology editor or imported from third-party tools.
  3. Compatibility
    Ability to import and export data to interact with third-party topology design and electromagnetic integrated circuit analysis tools, including collaboration with Cadence Virtuoso.


AXIEM is a planar EM simulator as part of Cadence AWR Design Environment ™, used to model and optimize passive elements of radio frequency printed circuit boards, individual modules, thick film chips (LTCC), microwave chips (MMIC), radio frequency chips (RFIC), and antennas. The accuracy and speed of AXIEM modeling allows you to speed up or even eliminate many stages of design, resulting in a marked reduction in production and time costs.



  • Extraction of electromagnetic structures directly from circuit diagrams.

  • Electromagnetic structure topology editor.

  • Patented calculation algorithm by open-border moment method.

  • Advanced hybrid mesh construction algorithms.

  • Visualize analysis results and post-process them.
  • Adjustment, optimization and statistical analysis of yield.
  1. Integration
    AXIEM perfectly complements schematic and system modeling by providing seamless connectivity of the design route without the need for complex design and simulation settings when moving to EM analysis.
  2. Speed
    Fast and high-quality electromagnetic analysis based on advanced algorithms provides accurate calculation of structure parameters and possibility of constructing current density distributions and directional patterns of planar antennas.
  3. Accuracy
    Fast adaptive hybrid meshing technology provides incredible accuracy and reliability of EM analysis due to automatic division of simulated structures into triangular and rectangular elements.

5. Analyst

Analyze — Tight integration with all modules of the software package allows the developer to concentrate on designing and optimizing the characteristics of the device being developed, without being distracted by drawing complex structures and importing/exporting data between individual tools.



  • Extraction of electromagnetic structures directly from circuit diagrams.

  • 3D Electromagnetic Structure Editor.

  • Patented finite element design algorithm.

  • Advanced algorithms for building an adaptive tetrahedral grid.

  • Visualize analysis results and post-process them.

  • Adjustment, optimization and statistical analysis of yield.
  1. Integration
    The ability to fully analyze three-dimensional structures as part of the design process to account for all possible effects in the early stages of development.
  2. Flexibility
    Supports 3D parameterized features (pCells) and enables you to create your own 3D models in an embedded editor, including conformal structures.
  3. Reliability
    Adaptive tetrahedral element-based mesh algorithms that provide accurate and rapid analysis of complex three-dimensional objects.