Abstract: A software-defined radio system may include a radio frequency front end connected to a high performance computing processor comprised of a central processing unit (CPU), a graphics processing unit (GPU), and a shared memory between the CPU and GPU. The software-defined radio system may incorporate a signal processing unit between the radio frequency front end and the high performance computing processor. Additionally, the software-defined radio system may be configured to create a ring buffer in a shared memory between the CPU and GPU and directly store digital signal data in the ring buffer. The software-defined radio system may be used to implement and train machine learning algorithms and transmit digital signals.

Abstract: A software-defined radio system may include a radio frequency front end connected to a high performance computing processor comprised of a central processing unit (CPU), a graphics processing unit (GPU), and a shared memory between the CPU and GPU. The software-defined radio system may incorporate a signal processing unit between the radio frequency front end and the high performance computing processor. Additionally, the software-defined radio system may be configured to create a ring buffer in a shared memory between the CPU and GPU and directly store digital signal data in the ring buffer. The software-defined radio system may be used to implement and train machine learning algorithms and transmit digital signals.

Abstract: A software-defined radio system may include a radio frequency front end connected to a high performance computing processor comprised of a central processing unit (CPU), a graphics processing unit (GPU), and a shared memory between the CPU and GPU. The software-defined radio system may incorporate a signal processing unit between the radio frequency front end and the high performance computing processor. Additionally, the software-defined radio system may be configured to create a ring buffer in a shared memory between the CPU and GPU and directly store digital signal data in the ring buffer. The software-defined radio system may be used to implement and train machine learning algorithms and transmit digital signals.

Abstract: A software-defined radio system may include a radio frequency front end connected to a high performance computing processor comprised of a central processing unit (CPU), a graphics processing unit (GPU), and a shared memory between the CPU and GPU. The software-defined radio system may incorporate a signal processing unit between the radio frequency front end and the high performance computing processor. Additionally, the software-defined radio system may be configured to create a ring buffer in a shared memory between the CPU and GPU and directly store digital signal data in the ring buffer. The software-defined radio system may be used to implement and train machine learning algorithms and transmit digital signals.

Abstract: A software-defined radio system may include a radio frequency front end connected to a high performance computing processor comprised of a central processing unit (CPU), a graphics processing unit (GPU), and a shared memory between the CPU and GPU. The software-defined radio system may incorporate a signal processing unit between the radio frequency front end and the high performance computing processor. Additionally, the software-defined radio system may be configured to create a ring buffer in a shared memory between the CPU and GPU and directly store digital signal data in the ring buffer. The software-defined radio system may be used to implement and train machine learning algorithms and transmit digital signals.