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14
other.bib
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@ -9,6 +9,19 @@ Multicore Environments},
pages = {19-37}, pages = {19-37},
} }
@INPROCEEDINGS{HaaseHW102,
author={Hofmann, A. and Waldschmidt, K. and Haase, J.},
booktitle={Adaptive Hardware and Systems (AHS), 2010 NASA/ESA Conference
on},
title={{SDVM} - managing heterogeneity in space and time on
multicore {SoCs}},
year={2010},
month={June},
pages={142-148},
keywords={Field programmable gate arrays;Hardware;Middleware;Multicore
processing;Software;System-on-a-chip},
}
@article{biddappaclock, @article{biddappaclock,
author = {Biddappa, Rohit}, author = {Biddappa, Rohit},
title = {Clock Domain Crossing}, title = {Clock Domain Crossing},
@ -18,6 +31,5 @@ Multicore Environments},
year = {2005}, year = {2005},
pages = {2--8}, pages = {2--8},
numpages = {7}, numpages = {7},
url = {http://www.cadence.com/india/newsletters/icon_2005-05.pdf},
publisher = {Cadence}, publisher = {Cadence},
} }

11
partial_reconfiguration.bib
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@ -1,5 +1,5 @@
@book{koch2012partial, @book{koch2012partial,
title={Partial Reconfiguration on FPGAs: Architectures, Tools and Applications}, title={Partial Reconfiguration on {FPGAs}: Architectures, Tools and Applications},
author={Koch, Dirk}, author={Koch, Dirk},
volume={153}, volume={153},
year={2012}, year={2012},
@ -9,14 +9,14 @@
@PhdThesis{pr:prhs, @PhdThesis{pr:prhs,
author = {M.M. Eckert}, author = {M.M. Eckert},
title = {FPGA-Based System Virtual Machines}, title = {{FPGA}-Based System Virtual Machines},
school = {Helmut-Schmidt-Universität/Universität der Bundeswehr Hamburg}, school = {Helmut-Schmidt-Universität/Universität der Bundeswehr Hamburg},
year = {2014}, year = {2014},
} }
@article{pr:mrp, @article{pr:mrp,
author = {Meyer, Dominik and Klauer, Bernd}, author = {Meyer, Dominik and Klauer, Bernd},
title = {Multicore reconfiguration platform an alternative to RAMPSoC}, title = {Multicore reconfiguration platform an alternative to {RAMPSoC}},
journal = {SIGARCH Comput. Archit. News}, journal = {SIGARCH Comput. Archit. News},
issue_date = {September 2011}, issue_date = {September 2011},
volume = {39}, volume = {39},
@ -26,9 +26,6 @@ year = {2014},
issn = {0163-5964}, issn = {0163-5964},
pages = {102--103}, pages = {102--103},
numpages = {2}, numpages = {2},
url = {http://doi.acm.org/10.1145/2082156.2082185},
doi = {10.1145/2082156.2082185},
acmid = {2082185},
publisher = {ACM}, publisher = {ACM},
address = {New York, NY, USA}, address = {New York, NY, USA},
} }
@ -58,7 +55,6 @@ volume={},
number={}, number={},
pages={1 -7}, pages={1 -7},
keywords={application requirement;high performance computing;reconfigurable hardware;runtime adaptive multiprocessor system-on-chip;electronic design automation;multiprocessing systems;optimising compilers;reconfigurable architectures;system-on-chip;}, keywords={application requirement;high performance computing;reconfigurable hardware;runtime adaptive multiprocessor system-on-chip;electronic design automation;multiprocessing systems;optimising compilers;reconfigurable architectures;system-on-chip;},
doi={10.1109/IPDPS.2008.4536503},
ISSN={1530-2075},} ISSN={1530-2075},}
@INPROCEEDINGS{pr:rampsoc1, @INPROCEEDINGS{pr:rampsoc1,
@ -70,7 +66,6 @@ volume={},
number={}, number={},
pages={495 -498}, pages={495 -498},
keywords={FPGA;RAMPSoC approach;field programmable gate arrays;hardware adaptation;image data processing;multiprocessor hardware architectures;object tracking;field programmable gate arrays;microprocessor chips;reconfigurable architectures;system-on-chip;}, keywords={FPGA;RAMPSoC approach;field programmable gate arrays;hardware adaptation;image data processing;multiprocessor hardware architectures;object tracking;field programmable gate arrays;microprocessor chips;reconfigurable architectures;system-on-chip;},
doi={10.1109/FPL.2008.4629992},
ISSN={},} ISSN={},}
@InProceedings{pr:Hallmannseder, @InProceedings{pr:Hallmannseder,

19
path_delay.bib
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@ -7,8 +7,7 @@ volume={},
number={}, number={},
pages={157 -159}, pages={157 -159},
keywords={Field programmable gate arrays;Frequency;Inverters;Propagation delay;Ring oscillators;Routing;Semiconductor device measurement;Testing;Timing;Wire;}, keywords={Field programmable gate arrays;Frequency;Inverters;Propagation delay;Ring oscillators;Routing;Semiconductor device measurement;Testing;Timing;Wire;},
doi={10.1109/SPI.2002.258304}, }
ISSN={},}
@INPROCEEDINGS{pdm:vdl, @INPROCEEDINGS{pdm:vdl,
author={Chan, AH. and Roberts, G.W.}, author={Chan, AH. and Roberts, G.W.},
@ -18,8 +17,7 @@ year={2001},
month={}, month={},
pages={858-867}, pages={858-867},
keywords={CMOS logic circuits;application specific integrated circuits;calibration;delay lines;electric variables measurement;field programmable gate arrays;integrated circuit testing;logic testing;timing;CMOS process;IC prototype;RTL description;calibration;component-invariant technique;differential nonlinearity timing errors;high-resolution timing measurement device;production test;register transfer level description;test time;vernier delay line technique;Circuit testing;Clocks;Counting circuits;Delay lines;Field programmable gate arrays;Performance evaluation;Phase measurement;Propagation delay;Ring oscillators;Timing jitter}, keywords={CMOS logic circuits;application specific integrated circuits;calibration;delay lines;electric variables measurement;field programmable gate arrays;integrated circuit testing;logic testing;timing;CMOS process;IC prototype;RTL description;calibration;component-invariant technique;differential nonlinearity timing errors;high-resolution timing measurement device;production test;register transfer level description;test time;vernier delay line technique;Circuit testing;Clocks;Counting circuits;Delay lines;Field programmable gate arrays;Performance evaluation;Phase measurement;Propagation delay;Ring oscillators;Timing jitter},
doi={10.1109/TEST.2001.966708}, }
ISSN={1089-3539},}
@article{pdm:selfmeasurement, @article{pdm:selfmeasurement,
author = {Wong, Justin S. J. and Sedcole, Pete and Cheung, Peter Y. K.}, author = {Wong, Justin S. J. and Sedcole, Pete and Cheung, Peter Y. K.},
@ -30,12 +28,9 @@ ISSN={1089-3539},}
number = {2}, number = {2},
month = jun, month = jun,
year = {2009}, year = {2009},
issn = {1936-7406},
pages = {10:1--10:22}, pages = {10:1--10:22},
articleno = {10}, articleno = {10},
numpages = {22}, numpages = {22},
url = {http://doi.acm.org/10.1145/1534916.1534920},
doi = {10.1145/1534916.1534920},
acmid = {1534920}, acmid = {1534920},
publisher = {ACM}, publisher = {ACM},
address = {New York, NY, USA}, address = {New York, NY, USA},
@ -50,7 +45,7 @@ year={2014},
month={May}, month={May},
pages={802-808}, pages={802-808},
keywords={BCH codes;error correction codes;error detection codes;field programmable gate arrays;logic design;oscillators;FPGA designs;FPGA devices;FPGA security technique;IP vendor;RO security;building automation;complex factories;control systems;cost reduction;device prototyping;digital circuits;electronic devices;hardware attacks;manufacturing flow;medical apparatus;motor controllers;ring oscillators;security issues;switches;system integrator;Encoding;Field programmable gate arrays;Generators;Hardware;Manufacturing;Ring oscillators}, keywords={BCH codes;error correction codes;error detection codes;field programmable gate arrays;logic design;oscillators;FPGA designs;FPGA devices;FPGA security technique;IP vendor;RO security;building automation;complex factories;control systems;cost reduction;device prototyping;digital circuits;electronic devices;hardware attacks;manufacturing flow;medical apparatus;motor controllers;ring oscillators;security issues;switches;system integrator;Encoding;Field programmable gate arrays;Generators;Hardware;Manufacturing;Ring oscillators},
doi={10.1109/OPTIM.2014.6850952},} }
@INPROCEEDINGS{pdm:ro1, @INPROCEEDINGS{pdm:ro1,
author={Jiliang Zhang and Qiang Wu and Yongqiang Lyu and Qiang Zhou and Yici Cai and Yaping Lin and Gang Qu}, author={Jiliang Zhang and Qiang Wu and Yongqiang Lyu and Qiang Zhou and Yici Cai and Yaping Lin and Gang Qu},
@ -60,7 +55,7 @@ year={2013},
month={Nov}, month={Nov},
pages={107-114}, pages={107-114},
keywords={copy protection;delays;digital rights management;field programmable gate arrays;industrial property;logic design;oscillators;Anderson PUF;FPGA IP protection;RO based PUF;arbiter-based PUF;challenge-response pairs;delay-based PUF;digital rights management;field programmable gate arrays;hard macros;intellectual property;key generation;physical unclonable function;resource overhead;ring oscillator;uncontrollable process variations;Delays;Fabrication;Field programmable gate arrays;Multiplexing;Random access memory;Shift registers;Table lookup;EDA;FPGAs;IP cores;fabrication variation;fingerprint;hardware security;intellectual property (IP) protection;physical unclonable functions (PUFs);watermarking}, keywords={copy protection;delays;digital rights management;field programmable gate arrays;industrial property;logic design;oscillators;Anderson PUF;FPGA IP protection;RO based PUF;arbiter-based PUF;challenge-response pairs;delay-based PUF;digital rights management;field programmable gate arrays;hard macros;intellectual property;key generation;physical unclonable function;resource overhead;ring oscillator;uncontrollable process variations;Delays;Fabrication;Field programmable gate arrays;Multiplexing;Random access memory;Shift registers;Table lookup;EDA;FPGAs;IP cores;fabrication variation;fingerprint;hardware security;intellectual property (IP) protection;physical unclonable functions (PUFs);watermarking},
doi={10.1109/CADGraphics.2013.22},} }
@INPROCEEDINGS{pdm:routing, @INPROCEEDINGS{pdm:routing,
@ -71,8 +66,7 @@ year={1998},
month={Oct}, month={Oct},
pages={628-633}, pages={628-633},
keywords={circuit layout CAD;field programmable gate arrays;logic CAD;network routing;timing;FPGA;FPGAs;benchmark circuits;complexity;delay;routing resources;symmetrical-array-based;timing-driven global router;timing-driven routing trees;wirelength;Approximation algorithms;Circuit optimization;Delay;Field programmable gate arrays;Information science;Integrated circuit interconnections;Logic arrays;Routing;Switches;Timing}, keywords={circuit layout CAD;field programmable gate arrays;logic CAD;network routing;timing;FPGA;FPGAs;benchmark circuits;complexity;delay;routing resources;symmetrical-array-based;timing-driven global router;timing-driven routing trees;wirelength;Approximation algorithms;Circuit optimization;Delay;Field programmable gate arrays;Information science;Integrated circuit interconnections;Logic arrays;Routing;Switches;Timing},
doi={10.1109/ICCD.1998.727132}, }
ISSN={1063-6404},}
@ARTICLE{pdm:routing1, @ARTICLE{pdm:routing1,
author={Alexander, M.J. and Robins, G.}, author={Alexander, M.J. and Robins, G.},
@ -84,5 +78,4 @@ volume={15},
number={12}, number={12},
pages={1505-1517}, pages={1505-1517},
keywords={VLSI;circuit layout CAD;delays;field programmable gate arrays;integrated circuit design;logic CAD;logic partitioning;network routing;trees (mathematics);FPGA;Steiner algorithms;Steiner tree constructions;Xilinx parts;arborescence algorithms;channel width;optimal source-sink pathlengths;performance bounds;routing algorithms;routing solutions;wirelength;Algorithm design and analysis;Circuit simulation;Computer science;Construction industry;Field programmable gate arrays;Flexible printed circuits;Propagation delay;Routing;Steiner trees;Very large scale integration}, keywords={VLSI;circuit layout CAD;delays;field programmable gate arrays;integrated circuit design;logic CAD;logic partitioning;network routing;trees (mathematics);FPGA;Steiner algorithms;Steiner tree constructions;Xilinx parts;arborescence algorithms;channel width;optimal source-sink pathlengths;performance bounds;routing algorithms;routing solutions;wirelength;Algorithm design and analysis;Circuit simulation;Computer science;Construction industry;Field programmable gate arrays;Flexible printed circuits;Propagation delay;Routing;Steiner trees;Very large scale integration},
doi={10.1109/43.552083}, }
ISSN={0278-0070},}