Software Defined Radio (SDR) is a radio communication technique which converts hardware problems to software problems using a programmable processing system. With the increase of SDR applications, the demand for high bandwidth and signal processing also
increased. Therefore, the SDR system needs a programmable and scalable multicore processing hardware architecture. In this work, we proposed a scalable multi-core, programmable and parametrizable high performance software defined radio system architecture and software development environment.
The proposed system uses heterogeneous processing cores including CPU, SIMD, and FPGA architectures and supports C++, Python, and Data-flow programming environment. To proposed system is implemented and tested it on heterogeneous multi-core system and Altera DE1-SoC development board. In order to prove that the system is efficient in a variety of scenarios, different modulation techniques are used.
increased. Therefore, the SDR system needs a programmable and scalable multicore processing hardware architecture. In this work, we proposed a scalable multi-core, programmable and parametrizable high performance software defined radio system architecture and software development environment.
The proposed system uses heterogeneous processing cores including CPU, SIMD, and FPGA architectures and supports C++, Python, and Data-flow programming environment. To proposed system is implemented and tested it on heterogeneous multi-core system and Altera DE1-SoC development board. In order to prove that the system is efficient in a variety of scenarios, different modulation techniques are used.
[1] Authors: Tassadaq Hussain, Musawir Khan, Mujeeb Ur Rehman, Wasim Akram, Khalid Anayat, Arshad , Ahsan Akbar, Asad Habib.
Title: A High Performance Software Defined Radio System Architecture and Development Environment for wide range of Applications
Conference: 2018 International Conference on Computing, Mathematics and Engineering Technologies – iCoMET 2018.
Publisher: IEEE Xplorer.
ISBN: 978-1-5386-1370-2.
Title: A High Performance Software Defined Radio System Architecture and Development Environment for wide range of Applications
Conference: 2018 International Conference on Computing, Mathematics and Engineering Technologies – iCoMET 2018.
Publisher: IEEE Xplorer.
ISBN: 978-1-5386-1370-2.
Team Leader :
Dr. Tassadaq Hussain
Members :
Amna Haider
Wasim Akram
Affiliations :
[1] Barcelona Supercomputing Center Spain
[2] Riphah Int'l University Islamabad
Dr. Tassadaq Hussain
Members :
Amna Haider
Wasim Akram
Affiliations :
[1] Barcelona Supercomputing Center Spain
[2] Riphah Int'l University Islamabad
High Performance Software Defined Radio
UCERD Rawalpindi
Supercomputing Center
UCERD Murree
UCERD Gathering Intellectuals Fostering Innovations
Unal Center of Educaiton Research & Development
Unal Center of Educaiton Research & Development
