Abstract:
A small, fine-grained systolic FFT architecture is described that is fast, programmable, can do non-power-of-two DFTs, and provides a higher signal-to-noise ratio for a g...Show MoreMetadata
Abstract:
A small, fine-grained systolic FFT architecture is described that is fast, programmable, can do non-power-of-two DFTs, and provides a higher signal-to-noise ratio for a given fixed-point word length than traditional block floating point approaches. To demonstrate the basic architecture, several designs were implemented using 65nm FPGA technology: (1) fixed-size 256-point and 1024-point circuits; (2) a power-of-two variable FFT circuit for LTE OFDM; and (3) a non-power-of-two circuit for LTE SC-FDMA DFT computations, that is programmed by entering parameter values into a single ROM memory. These three circuits demonstrate >37%, 62% and >100% higher throughputs than the other pipelined and memory-based FFTs to which they are compared. These circuits run at clocks speeds as high as 566 MHz, 46% higher than any other circuit in the comparisons. Finally, the architecture provides scalable throughput by increasing the array size.
Date of Conference: 03-06 February 2014
Date Added to IEEE Xplore: 10 April 2014
Electronic ISBN:978-1-4799-2358-8