Key Features & Specifications
- Standards-based MIMO simulation models for WINNER-II and Correlation channel/fading
- Up to 8x8 MIMO configurations, with individual X-Y positions, radiation patterns
- Incorporates EM-based 2D Farfield data for early, predictive physical layer performance
- Combines MIMO non-idealities and 4G propagation in one convenient model set
- NEW: Beamforming synthesis for LTE/LTE-A basestations
The W1715 MIMO Channel Builder provides multi-channel fading simulation blocks that incorporate realistic antenna patterns for LTE system architects, receiver algorithm developers, and baseband hardware designers. It consists of a geometry-based WINNER-II MIMO channel model and a correlation-based MIMO channel model, thus adding standards-compliant 4G fading profiles to the Agilent SystemVue platform. It interoperates well with the W1910 LTE Baseband Verification Library, as well as other Agilent measurement products, such as the 89601 VSA, N5106A PXB source, and other products. The W1715 MIMO Channel Builder also provides an economical, predictive alternative to real-time hardware faders for up to 8x8 MIMO links.
Why should I buy the W1715 MIMO Channel Builder?
- Develop, verify, debug LTE receiver algorithms
- Generate highly-parameterized test vectors and regression suites
- Predictive, accurate, configurable, economical alternative to hardware faders
- Interacts equally well with Algorithms (C++, math), or Test equipment, such as the Agilent N5106A (shown below), for design flow confidence and continuity
- Sharable across distributed design teams
Enabling Predictive “drive-test realism” in the Algorithm Phase
The W1715 MIMO Channel Builder starts with published geometry-based WINNER-II and Correlation-based MIMO fading algorithms, extending each underlying SISO model with correlation-based fading after each tap. The MIMO Channel Builder then incorporates 2D far-field EM data into the propagation characteristics of the simulated MIMO radiators. The simulated fading blocks degrade MIMO signals with near-field crosstalk that is precise, realistic, and predictive. When combined with other SystemVue advantages, such as fast envelope-level RF effects and HARQ throughput measurements, the result is unprecedented link-level fidelity for LTE architects that yields predictive insights much earlier in the design process for superior partitioning and algorithmic development. SystemVue brings drive-test realism into the architecture phase of the design, before hardware has been implemented.
Who should use Agilent’s W1715 MIMO Channel module?
LTE architects can use the W1715 MIMO Channel Builder to predict and track the link-level system performance during a complex design process, despite challenges such as partially completed RF hardware, evolving antenna and packaging designs, and evolving standards and algorithmic research.
Receiver designers have the ability to create precisely-degraded, standards-compliant test vectors necessary for development and “vetting” of robust receiver algorithms. With full parameterization, the W1715 MIMO Channel Builder models help SystemVue users to verify 4G receivers at all levels of abstraction: math or C++ languages, VHDL/Verilog. Waveforms downloaded to test equipment (such as the Agilent N5106 PXB) and the exact same verification performed directly in measurement equipment.
Agilent SystemVue provides a convenient system-level communications design “cockpit” to initiate the design, hand off to a variety of corporate design flows for implementation, and verify the finished hardware results. SystemVue’s unified ESL approach to communications accelerates the design maturity, helps reduce inefficient design margins, and delivers more robust designs from the very first generation.
Figure. setting up user-defined radiation patterns for the MIMO crosstalk, using farfield 3DEM patterns from Agilent EMPro.
Figure. Create LTE/LTE-Advanced beamforming patterns with SystemVue W1715 and W1918 libraries, verify with 89600 VSA analysis software. Also interoperates with Agilent signal generators, and N7109 MIMO receiver.
The W1715 MIMO channel builder can be added to any SystemVue environment or bundle listed below.
- W1461 SystemVue Comms Architect
- W1462 SystemVue FPGA Architect
- W1464 SystemVue RF Architect
- W1465 SystemVue System Architect
The W1715 MIMO channel builder is often used with these related products:
- W1910 LTE Baseband Verification Library
- W1911 WiMAX Baseband Verification Library
- W1918 LTE-Advanced Baseband Verification Library
Follow the link below to view all SystemVue configurations: