4,998 research outputs found
Time-Shared Execution of Realtime Computer Vision Pipelines by Dynamic Partial Reconfiguration
This paper presents an FPGA runtime framework that demonstrates the
feasibility of using dynamic partial reconfiguration (DPR) for time-sharing an
FPGA by multiple realtime computer vision pipelines. The presented time-sharing
runtime framework manages an FPGA fabric that can be round-robin time-shared by
different pipelines at the time scale of individual frames. In this new
use-case, the challenge is to achieve useful performance despite high
reconfiguration time. The paper describes the basic runtime support as well as
four optimizations necessary to achieve realtime performance given the
limitations of DPR on today's FPGAs. The paper provides a characterization of a
working runtime framework prototype on a Xilinx ZC706 development board. The
paper also reports the performance of realtime computer vision pipelines when
time-shared
An AER handshake-less modular infrastructure PCB with x8 2.5Gbps LVDS serial links
Nowadays spike-based brain processing emulation is
taking off. Several EU and others worldwide projects are
demonstrating this, like SpiNNaker, BrainScaleS, FACETS, or
NeuroGrid. The larger the brain process emulation on silicon is,
the higher the communication performance of the hosting
platforms has to be. Many times the bottleneck of these system
implementations is not on the performance inside a chip or a
board, but in the communication between boards. This paper
describes a novel modular Address-Event-Representation (AER)
FPGA-based (Spartan6) infrastructure PCB (the AER-Node
board) with 2.5Gbps LVDS high speed serial links over SATA
cables that offers a peak performance of 32-bit 62.5Meps (Mega
events per second) on board-to-board communications. The
board allows back compatibility with parallel AER devices
supporting up to x2 28-bit parallel data with asynchronous
handshake. These boards also allow modular expansion
functionality through several daughter boards. The paper is
focused on describing in detail the LVDS serial interface and
presenting its performance.Ministerio de Ciencia e Innovación TEC2009-10639-C04-02/01Ministerio de Economía y Competitividad TEC2012-37868-C04-02/01Junta de Andalucía TIC-6091Ministerio de Economía y Competitividad PRI-PIMCHI-2011-076
ROACH accelerated BLAST
Includes abstract.Includes bibliographical references (p. 115-118).Reconfigurable computing, in recent years, has been taking great strides in becoming part of mainstream computing largely due to the rapid growth in the size of FPGAs and their ability to adapt to certain complex applications efficiently. This dissertation investigates the reuse of application specific hardware developed for radio astronomy in accelerating a popular bioinformatics algorithm
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