Thursday, June 30 14:00-17:00
In today’s competitive wireless research space, the ability to prototype ideas quickly on hardware using real signals is more important than ever. Attendees will gain hands-on experience with National Instruments’ integrated hardware and software platform for rapid prototyping of real-time wireless systems using the NI LabVIEW Communications System Design Suite (LabVIEW Communications) and the NI USRP RIO FPGA-based software defined radio. The final result will be the attendee’s ability to design, simulate, and prototype a 5-MHz LTE-based real-time OFDM link on a high performance FPGA, and transmit data over the air using the link designed on the NI USRP RIO. This industrial design workshop will cover the most important aspects of the idea-to-prototype flow in a single tool, including floatingpoint simulation, floating-point to fixed-point conversion, HW/SW partitioning, performance-complexity tradeoffs, and finally verification and testing on an FPGA-based software-defined radio. Note: No prior experience with FPGA’s or NI hardware or software tools is required.
SEMINAR IS COMPLIMENTARY - PLEASE GO BACK INTO YOUR REGISTRATION AND ADD IF YOU ARE INTERESTED IN ATTENDING
Complimentary National Instruments Seminar
Hands-on: Rapid Prototyping of Real Time Wireless SystemsIn today’s competitive wireless research space, the ability to prototype ideas quickly on hardware using real signals is more important than ever. Attendees will gain hands-on experience with National Instruments’ integrated hardware and software platform for rapid prototyping of real-time wireless systems using the NI LabVIEW Communications System Design Suite (LabVIEW Communications) and the NI USRP RIO FPGA-based software defined radio. The final result will be the attendee’s ability to design, simulate, and prototype a 5-MHz LTE-based real-time OFDM link on a high performance FPGA, and transmit data over the air using the link designed on the NI USRP RIO. This industrial design workshop will cover the most important aspects of the idea-to-prototype flow in a single tool, including floatingpoint simulation, floating-point to fixed-point conversion, HW/SW partitioning, performance-complexity tradeoffs, and finally verification and testing on an FPGA-based software-defined radio. Note: No prior experience with FPGA’s or NI hardware or software tools is required.
SEMINAR IS COMPLIMENTARY - PLEASE GO BACK INTO YOUR REGISTRATION AND ADD IF YOU ARE INTERESTED IN ATTENDING