G. Tatar Et Al. , "Real-Time Multi-Learning Deep Neural Network on an MPSoC-FPGA for Intelligent Vehicles: Harnessing Hardware Acceleration With Pipeline," IEEE Transactions on Intelligent Vehicles , vol.10, no.4, pp.1-12, 2024
Tatar, G. Et Al. 2024. Real-Time Multi-Learning Deep Neural Network on an MPSoC-FPGA for Intelligent Vehicles: Harnessing Hardware Acceleration With Pipeline. IEEE Transactions on Intelligent Vehicles , vol.10, no.4 , 1-12.
Tatar, G., Bayar, S., & Çiçek, I., (2024). Real-Time Multi-Learning Deep Neural Network on an MPSoC-FPGA for Intelligent Vehicles: Harnessing Hardware Acceleration With Pipeline. IEEE Transactions on Intelligent Vehicles , vol.10, no.4, 1-12.
Tatar, Güner, SALİH BAYAR, And Ihsan Çiçek. "Real-Time Multi-Learning Deep Neural Network on an MPSoC-FPGA for Intelligent Vehicles: Harnessing Hardware Acceleration With Pipeline," IEEE Transactions on Intelligent Vehicles , vol.10, no.4, 1-12, 2024
Tatar, Güner Et Al. "Real-Time Multi-Learning Deep Neural Network on an MPSoC-FPGA for Intelligent Vehicles: Harnessing Hardware Acceleration With Pipeline." IEEE Transactions on Intelligent Vehicles , vol.10, no.4, pp.1-12, 2024
Tatar, G. Bayar, S. And Çiçek, I. (2024) . "Real-Time Multi-Learning Deep Neural Network on an MPSoC-FPGA for Intelligent Vehicles: Harnessing Hardware Acceleration With Pipeline." IEEE Transactions on Intelligent Vehicles , vol.10, no.4, pp.1-12.
@article{article, author={Güner Tatar Et Al. }, title={Real-Time Multi-Learning Deep Neural Network on an MPSoC-FPGA for Intelligent Vehicles: Harnessing Hardware Acceleration With Pipeline}, journal={IEEE Transactions on Intelligent Vehicles}, year=2024, pages={1-12} }