SystemVue gets 5G design library and MATLAB script modeling
SystemVue 2015.01 now enables 5G technology research, and increases productivity for system architects and baseband physical layer (PHY) designers working on additional wide bandwidth applications such as satellite communications and electronic warfare.
The W1907BP 5G Forward Baseband Verification Library Bundle enables 4G designers to start anticipating 5G challenges today and continue forward into the final standard using a single configuration. The bundle combines existing 4G references for LTE-Advanced and the 3D WINNER+ MIMO channel model with forward-looking references for 5G PHY candidates, beginning with a full transmit/receive reference for Filter Bank Multi-Carrier (FBMC). It also adds legacy support for 2G/3G standards.
The W1906BEL, a source code exploration library for 5G, is also available. Supported SystemVue users will receive additional 5G algorithmic references as they are released, and transition naturally to the final standard at a later date.
SystemVue 2015.01 also integrates MATLAB Script. The capability enables algorithm modeling, debugging and scripting from within the SystemVue user interface.
Using SystemVue 2015.01, algorithm modelers can work directly on PHY designs in language-based (MATLAB, C++ or HDL) or graphical blocks, and then connect to accurate RF models, standards-based IP references, and test and measurement assets.
Other features of the SystemVue 2015.01 release include an FPGA programming connection to the Keysight M9703A real-time wideband 8-channel digitizer as well as RF system-level EVM budget analysis and AM/PM support (W1719). It also provides reference receivers and EVM/BER support for 25 modulation formats that are useful for satellite and military communications (W1902)
Further, SystemVue 2015.01 provides 3D EM antenna pattern import from EMPro, for realistic phased-array radar beamforming (W1905), along with native 3D visualization.
SystemVue 2015.01 offers support for recently announced Keysight test instruments, including the 65 GSamples/s M8195A AWG, the 510-MHz wide N9040B UXA signal analyzer, and MIMO configurations of the M9381A/M9391A
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