Hellenic Journal οf Radiology

Purpose: In radiology, several medical imaging modalities were used. In recent Biomedical systems, integrated circuits were used in the form of Application Specific Integrated Circuits (ASICs) to perform FFT. The raw data obtained from the acquiring equipment are reconstructed to image using Fast Fourier Transform (FFT). The contribution in the paper is to design an FFT integrated unit for converting the Magnetic Resonance (MR) signal into frequency spectrum of each phase encoding.
Materials and Methods: The image created is been transformed from the spatial projection using inverse Fourier transform. The k-space FFT information were back projected to obtain the MRI image. This paper presents an integrated circuit implementation of FFT processing elements used in Magnetic Resonance Imaging (MRI) reconstruction and ultrasonic imaging. The circuits designed in this work is to be used in the back-projection unit of MRI reconstruction. The complex periodic signal received from the receiver coils in MRI or piezoelectric disc in ultrasound and detector array in CT are analyzed using Fourier transform. The proposed single-path delay feedback (SDF) Decimation In Frequency (DIF) 4096-point FFT for image reconstruction was implemented in 65nm FPGA kit and programmed using VHDL in Quartus tool.
Results: This block becomes the part of the reconstruction unit of MRI image. The proposed design reduces the execution of instruction per cycle and the fixed point arithmetic provides low roundoff error.
Conclusions: Since in MRI reconstruction the frequency encoding and phase encoding is combined to develop the images the proposed FFT will be useful. In Future application specific integrated circuits will be designed for the entire MRI back projection and reconstruction unit.

Kaya, Zeynep and Erol Seke. “A novel addressing algorithm of radix-2 FFT using single-bank dual-port memory.” Circuit World (2020):

Xia, Kaifeng, Bin Wu, Tao Xiong and Tianchun Ye. “A Memory-Based FFT Processor Design With Generalized Efficient Conflict-Free Address Schemes.” IEEE Transactions on Very Large Scale Integration (VLSI) Systems 25 (2017): 1919-1929.

Rajasekhar Turaka, Satya Sai Ram, “Low power VLSI implementation of real fast Fourier transform with DRAM-VM-CLA”, Microprocessors and Microsystems, vol. 69, 2019,pp. 92-100.

Ingemarsson, Carl, Petter Källström, Fahad Qureshi and Oscar Gustafsson. “Efficient FPGA Mapping of Pipeline SDF FFT Cores.” IEEE Transactions on Very Large Scale Integration (VLSI) Systems 25 (2017): 2486-2497.

Tang, Song-Nien, Fu-Chiang Jan, Hui-Wen Cheng, Ching-Kai Lin and Guo-Zua Wu. “Multimode Memory-Based FFT Processor for Wireless Display FD-OCT Medical Systems.” IEEE Transactions on Circuits and Systems I: Regular Papers 61 (2014): 3394-3406.

AbdolVahab Khalili Sadaghiani, Samad Sheikhaei, Behjat Forouzandeh, “Low Complexity Multiplierless Welch Estimator Based on Memory-Based FFT”, Journal of Circuits, Systems and Computers VOL. 31, NO. 15

Ma, Zhen-guo, Xiaobo Yin and Feng Yu. “A Novel Memory-Based FFT Architecture for Real-Valued Signals Based on a Radix-2 Decimation-In-Frequency Algorithm.” IEEE Transactions on Circuits and Systems II: Express Briefs 62 (2015): 876-880.

Guo, Y., Zhijun Wang, Qinzhi Hong, Hanqing Luo, Xin Qiu and Liping Liang. “A 60-Mode High-Throughput Parallel-Processing FFT Processor for 5G/4G Applications.” IEEE Transactions on Very Large Scale Integration (VLSI) Systems 31 (2023): 219-232.

Garrido, Mario, Miguel Angel Sánchez, María Luisa López Vallejo and Jesús Grajal. “A 4096-Point Radix-4 Memory-Based FFT Using DSP Slices.” IEEE Transactions on Very Large Scale Integration (VLSI) Systems 25 (2017): 375-379.

Wang, Jian, Songting Li and Xianbin Li. “Scheduling of Data Access for the Radix-2k FFT Processor Using Single-Port Memory.” IEEE Transactions on Very Large Scale Integration (VLSI) Systems 28 (2020): 1676-1689.

Liu, Shaohan and Dake Liu. “Design Space Exploration of 1-D FFT Processor.” Journal of Signal Processing Systems 90 (2018): 1609 - 1621.

Thakur, Garima, Harsh Sohal and Shruti Jain. “A novel parallel prefix adder for optimized Radix-2 FFT processor.” Multidimensional Systems and Signal Processing 32 (2021): 1041 - 1063.

Jian, Wang, Li Xianbin, Fan Guangteng and Tuo Zhouhui. “A Parallel Radix-2 k FFT Processor using Single-Port Merged-Bank Memory.” International Symposium on Circuits and Systems (2019).

Zhao, Yupu, Hongguang Lv, Jun Li and Lulu Zhu. “High performance and resource efficient FFT processor based on CORDIC algorithm.” EURASIP Journal on Advances in Signal Processing 2022 (2022): 1-14.