Eckhard Grass scite author profile

Abstract-In this paper, we present a novel fixed-point 16-bit word-width 64-point FFT/IFFT processor developed primarily for the application in an OFDM-based IEEE 802.11a wireless LAN baseband processor. The 64-point FFT is realized by decomposing it into a two-dimensional structure of 8-point FFTs. This approach reduces the number of required complex multiplications compared to the conventional radix-2 64-point FFT algorithm. The complex multiplication operations are realized using shift-and-add operations. Thus, the processor does not use a two-input digital multiplier. It also does not need any RAM or ROM for internal storage of coefficients. The proposed 64-point FFT/IFFT processor has been fabricated and tested successfully using our in-house 0.25-m BiCMOS technology. The core area of this chip is 6.8 mm 2 . The average dynamic power consumption is 41 mW at 20 MHz operating frequency and 1.8 V supply voltage. The processor completes one parallel-to-parallel (i.e., when all input data are available in parallel and all output data are generated in parallel) 64-point FFT computation in 23 cycles. These features show that though it has been developed primarily for application in the IEEE 802.11a standard, it can be used for any application that requires fast operation as well as low power consumption.

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Modified virtually scaling-free adaptive CORDIC rotator algorithm and architecture

Maharatna

Banerjee

Grass

et al. 2005

IEEE Trans. Circuits Syst. Video Technol.

108

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Abstract-In this paper, we proposed a novel Coordinate Rotation DIgital Computer (CORDIC) rotator algorithm that converges to the final target angle by adaptively executing appropriate iteration steps while keeping the scale factor virtually constant and completely predictable. The new feature of our scheme is that, depending on the input angle, the scale factor can assume only two values, viz., 1 and 1 2, and it is independent of the number of executed iterations, nature of iterations, and word length. In this algorithm, compared to the conventional CORDIC, a reduction of 50% iteration is achieved on an average without compromising the accuracy. The adaptive selection of the appropriate iteration step is predicted from the binary representation of the target angle, and no further arithmetic computation in the angle approximation datapath is required. The convergence range of the proposed CORDIC rotator is spanned over the entire coordinate space. The new CORDIC rotator requires 22% less adders and 53% less registers compared to that of the conventional CORDIC. The synthesized cell area of the proposed CORDIC rotator core is 0.7 mm 2 and its power dissipation is 7 mW in IHP in-house 0.25-m BiCMOS technology.Index Terms-Coordinate rotation digital computer (CORDIC), digital signal processing (DSP), scaling-free CORDIC, vector rotation, very large-scale integration (VLSI).

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Globally Asynchronous, Locally Synchronous Circuits: Overview and Outlook

Krstić

Grass

Gürkaynak

et al. 2007

IEEE Des. Test. Comput.

162

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Wireless-Optical Network Convergence: Enabling the 5G Architecture to Support Operational and End-User Services

et al. 2017

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Optimized low-power synchronizer design for the IEEE 802.11a standard

Krstić

Troya

Maharatna

et al.

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Eckhard Grass

A 64-Point Fourier Transform Chip for High-Speed Wireless LAN Application Using OFDM

Modified virtually scaling-free adaptive CORDIC rotator algorithm and architecture

Globally Asynchronous, Locally Synchronous Circuits: Overview and Outlook

Wireless-Optical Network Convergence: Enabling the 5G Architecture to Support Operational and End-User Services

Optimized low-power synchronizer design for the IEEE 802.11a standard

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