1,252 research outputs found
FPGA based Novel High Speed DAQ System Design with Error Correction
Present state of the art applications in the area of high energy physics
experiments (HEP), radar communication, satellite communication and bio medical
instrumentation require fault resilient data acquisition (DAQ) system with the
data rate in the order of Gbps. In order to keep the high speed DAQ system
functional in such radiation environment where direct intervention of human is
not possible, a robust and error free communication system is necessary. In
this work we present an efficient DAQ design and its implementation on field
programmable gate array (FPGA). The proposed DAQ system supports high speed
data communication (~4.8 Gbps) and achieves multi-bit error correction
capabilities. BCH code (named after Raj Bose and D. K. RayChaudhuri) has been
used for multi-bit error correction. The design has been implemented on Xilinx
Kintex-7 board and is tested for board to board communication as well as for
board to PC using PCIe (Peripheral Component Interconnect express) interface.
To the best of our knowledge, the proposed FPGA based high speed DAQ system
utilizing optical link and multi-bit error resiliency can be considered first
of its kind. Performance estimation of the implemented DAQ system is done based
on resource utilization, critical path delay, efficiency and bit error rate
(BER).Comment: ISVLSI 2015. arXiv admin note: substantial text overlap with
arXiv:1505.04569, arXiv:1503.0881
Digitally modulated bit error rate measurement system for microwave component evaluation
The NASA Lewis Research Center has developed a unique capability for evaluation of the microwave components of a digital communication system. This digitally modulated bit-error-rate (BER) measurement system (DMBERMS) features a continuous data digital BER test set, a data processor, a serial minimum shift keying (SMSK) modem, noise generation, and computer automation. Application of the DMBERMS has provided useful information for the evaluation of existing microwave components and of design goals for future components. The design and applications of this system for digitally modulated BER measurements are discussed
Millimeter-Wave System for High Data Rate Indoor Communications
This paper presents the realization of a wireless Gigabit Ethernet
communication system operating in the 60 GHz band. The system architecture uses
a single carrier modulation. A differential encoded binary phase shift keying
modulation and a differential demodulation scheme are adopted for the
intermediate frequency blocks. The baseband blocks use Reed- Solomon RS (255,
239) coding and decoding for channel forward error correction (FEC). First
results of bit error rate (BER) measurements at 875 Mbps, without channel
coding, are presented for different antennas.Comment: 5 page
Precision near-infrared radial velocity instrumentation II: Non-Circular Core Fiber Scrambler
We have built and commissioned a prototype agitated non-circular core fiber
scrambler for precision spectroscopic radial velocity measurements in the
near-infrared H band. We have collected the first on-sky performance and modal
noise tests of these novel fibers in the near-infrared at H and K bands using
the CSHELL spectrograph at the NASA InfraRed Telescope Facility (IRTF). We
discuss the design behind our novel reverse injection of a red laser for
co-alignment of star-light with the fiber tip via a corner cube and visible
camera. We summarize the practical details involved in the construction of the
fiber scrambler, and the mechanical agitation of the fiber at the telescope. We
present radial velocity measurements of a bright standard star taken with and
without the fiber scrambler to quantify the relative improvement in the
obtainable blaze function stability, the line spread function stability, and
the resulting radial velocity precision. We assess the feasibility of applying
this illumination stabilization technique to the next generation of
near-infrared spectrographs such as iSHELL on IRTF and an upgraded NIRSPEC at
Keck. Our results may also be applied in the visible for smaller core diameter
fibers where fiber modal noise is a significant factor, such as behind an
adaptive optics system or on a small < 1 meter class telescope such as is being
pursued by the MINERVA and LCOGT collaborations.Comment: Proceedings of the SPIE Optics and Photonics Conference "Techniques
and Instrumentation for Detection of Exoplanets VI" held in San Diego, CA,
August 25-29, 201
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