Changeset 77 for anr


Ignore:
Timestamp:
Feb 3, 2010, 7:23:37 AM (15 years ago)
Author:
coach
Message:

IA: modif UBS

File:
1 edited

Legend:

Unmodified
Added
Removed
  • anr/anr.bib

    r61 r77  
    9191}
    9292
    93 @INBOOK{gaut08,
    94   author    = {P. Coussy and al.},
    95   title     = {GAUT: A High-Level Synthesis Tool for DSP applications},
    96   booktitle = {High-Level Synthesis: From Algorithm to Digital Circuits},
    97   publisher = {Springer},
    98   year      = {2008},
    99 }
    10093
    10194@INBOOK{ugh08,
     
    125118  year         = {2009},
    126119}
     120
     121
     122
     123%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
     124%%% UBS
     125
     126
     127@INBOOK{gaut08,
     128  author    = {P. Coussy and al.},
     129  title     = {GAUT: A High-Level Synthesis Tool for DSP applications},
     130  booktitle = {High-Level Synthesis: From Algorithm to Digital Circuits},
     131  publisher = {Springer},
     132  year      = {2008},
     133}
     134
     135@article{DBLP:journals/dt/CoussyT09,
     136  author    = {Philippe Coussy and
     137               Andres Takach},
     138  title     = {Guest Editors' Introduction: Raising the Abstraction Level
     139               of Hardware Design},
     140  journal   = {IEEE Design {\&} Test of Computers},
     141  volume    = {26},
     142  number    = {4},
     143  year      = {2009},
     144  pages     = {4-6},
     145  ee        = {http://doi.ieeecomputersociety.org/10.1109/MDT.2009.80},
     146  bibsource = {DBLP, http://dblp.uni-trier.de}
     147}
     148
     149
     150@article{DBLP:journals/dt/CoussyGMT09,
     151  author    = {Philippe Coussy and
     152               Daniel D. Gajski and
     153               Michael Meredith and
     154               Andres Takach},
     155  title     = {An Introduction to High-Level Synthesis},
     156  journal   = {IEEE Design {\&} Test of Computers},
     157  volume    = {26},
     158  number    = {4},
     159  year      = {2009},
     160  pages     = {8-17},
     161  ee        = {http://doi.ieeecomputersociety.org/10.1109/MDT.2009.69},
     162  bibsource = {DBLP, http://dblp.uni-trier.de}
     163}
     164
     165
     166@article{DBLP:journals/vlsisp/ThabetCHM09,
     167  author    = {Farhat Thabet and
     168               Philippe Coussy and
     169               Dominique Heller and
     170               Eric Martin},
     171  title     = {Exploration and Rapid Prototyping of DSP Applications using
     172               SystemC Behavioral Simulation and High-level Synthesis},
     173  journal   = {Signal Processing Systems},
     174  volume    = {56},
     175  number    = {2-3},
     176  year      = {2009},
     177  pages     = {167-186},
     178  ee        = {http://dx.doi.org/10.1007/s11265-008-0235-1},
     179  bibsource = {DBLP, http://dblp.uni-trier.de}
     180}
     181
     182
     183
     184@inproceedings{CHAVET:2007:HAL-00153994:1,
     185        title = { {A} {M}ethodology for {E}fficient {S}pace-{T}ime {A}dapter {D}esign {S}pace {E}xploration: {A} {C}ase {S}tudy of an {U}ltra {W}ide {B}and {I}nterleaver},
     186        author = {{C}havet, {C}yrille and {C}oussy, {P}hilippe and {U}rard, {P}ascal and {M}artin, {E}ric},
     187        abstract = {{T}his paper presents a solution to efficiently explore the design space of communication adapters. {I}n most digital signal processing ({DSP}) applications, the overall architecture of the system is significantly affected by communication architecture, so the designers need specifically optimized adapters. {B}y explicitly modeling these communications within an effective graph-theoretic model and analysis framework, we automatically generate an optimized architecture, named {S}pace-{T}ime {A}dapte{R} ({STAR}). {O}ur design flow inputs a {C} description of {I}nput/{O}utput data scheduling, and user requirements (throughput, latency, parallelism...), and formalizes communication constraints through a {R}esource {C}onstraints {G}raph ({RCG}). {T}he {RCG} properties enable an efficient architecture space exploration in order to synthesize a {STAR} component. {T}he proposed approach has been tested to design an industrial data mixing block example: an {U}ltra-{W}ideband interleaver.},
     188        language = {{A}nglais},
     189        affiliation = {{L}aboratoire d'{E}lectronique des {S}yst{\`e}mes {TE}mps {R}{\'e}el - {LESTER} - {CNRS} : {FRE}2734 - {U}niversit{\'e} de {B}retagne {S}ud - {STM}icroelectronics - {STM} - {STM}icroelectronics },
     190        booktitle = {{P}roceedings of the {IEEE} {I}nternational {S}ymposium on {C}ircuits and {S}ystems ({ISCAS}) {T}he {IEEE} {I}nternational {S}ymposium on {C}ircuits and {S}ystems ({ISCAS}) },
     191        publisher = {{L}ibrary of {C}ongress },
     192        pages = {2946 },
     193        address = {{N}ew {O}rleans {\'E}tats-{U}nis d'{A}m{\'e}rique },
     194        editor = {{IEEE} },
     195        note = {{ISBN}:1-4244-0921-7 },
     196        audience = {internationale },
     197    day = {28},
     198    month = {05},
     199    year = {2007},
     200    URL = {http://hal.archives-ouvertes.fr/hal-00153994/en/},
     201    URL = {http://hal.archives-ouvertes.fr/hal-00153994/PDF/ISCAS_Chavet1992.pdf},
     202}
     203
     204
     205@inproceedings{DBLP:conf/iccad/ChavetACCJUM07,
     206  author    = {Cyrille Chavet and
     207               Caaliph Andriamisaina and
     208               Philippe Coussy and
     209               Emmanuel Casseau and
     210               Emmanuel Juin and
     211               Pascal Urard and
     212               Eric Martin},
     213  title     = {A design flow dedicated to multi-mode architectures for
     214               DSP applications},
     215  booktitle = {ICCAD},
     216  year      = {2007},
     217  pages     = {604-611},
     218  ee        = {http://doi.acm.org/10.1145/1326073.1326199},
     219  crossref  = {DBLP:conf/iccad/2007},
     220  bibsource = {DBLP, http://dblp.uni-trier.de}
     221}
     222
     223
     224@inproceedings{DBLP:conf/glvlsi/ChavetCUM07,
     225  author    = {Cyrille Chavet and
     226               Philippe Coussy and
     227               Pascal Urard and
     228               Eric Martin},
     229  title     = {A design methodology for space-time adapter},
     230  booktitle = {ACM Great Lakes Symposium on VLSI},
     231  year      = {2007},
     232  pages     = {347-352},
     233  ee        = {http://doi.acm.org/10.1145/1228784.1228868},
     234  crossref  = {DBLP:conf/glvlsi/2007},
     235  bibsource = {DBLP, http://dblp.uni-trier.de}
     236}
     237
     238
     239@inproceedings{CHAVET:2007:HAL-00154025:1,
     240        title = { {A}pplication of a design space exploration tool to enhance interleaver generation},
     241        author = {{C}havet, {C}yrille and {C}oussy, {P}hilippe and {U}rard, {P}ascal and {M}artin, {E}ric},
     242        abstract = {{T}his paper presents a methodology to efficiently explore the design space of communication adapters. {I}n most digital signal processing ({DSP}) applications, the overall performance of the system is significantly affected by communication architectures, as a consequence the designers need specifically optimized adapters. {B}y explicitly modeling these communications within an effective graph-theoretic model and analysis framework, we automatically generate an optimized architecture, named {S}pace-{T}ime {A}dapte{R} ({STAR}). {O}ur design flow inputs a {C} description of {I}nput/{O}utput data scheduling, and user requirements (throughput, latency, parallelism...), and formalizes communication constraints through a {R}esource {C}onstraints {G}raph ({RCG}). {D}esign space exploration is then performed through associated tools, to synthesize a {STAR} component under time-to-market constraints. {T}he proposed approach has been tested to design an industrial data mixing block example: an {U}ltra-{W}ideband interleaver.},
     243        language = {{A}nglais},
     244        affiliation = {{L}aboratoire d'{E}lectronique des {S}yst{\`e}mes {TE}mps {R}{\'e}el - {LESTER} - {CNRS} : {FRE}2734 - {U}niversit{\'e} de {B}retagne {S}ud - {STM}icroelectronics - {STM} - {STM}icroelectronics },
     245        booktitle = {{P}roceedings of the {E}uropean {S}ignal {P}rocessing {C}onference ({EUSIPCO}-2007) {E}uropean {S}ignal {P}rocessing {C}onference ({EUSIPCO}-2007) },
     246        publisher = {{E}urasip },
     247        pages = {??? },
     248        address = {{P}oznan {P}ologne },
     249        audience = {internationale },
     250    day = {03},
     251    month = {09},
     252    year = {2007},
     253    URL = {http://hal.archives-ouvertes.fr/hal-00154025/en/},
     254    URL = {http://hal.archives-ouvertes.fr/hal-00154025/PDF/EUSIPCO_chavet.pdf},
     255}
     256
     257
     258@inproceedings{ANDRIAMISAINA:2007:HAL-00153086:1,
     259        title = { {S}ynthesis of {M}ultimode digital signal processing systems},
     260        author = {{A}ndriamisaina, {C}aaliph and {C}asseau, {E}mmanuel and {C}oussy, {P}hilippe},
     261        abstract = {{I}n this paper, we propose a design methodology for implementing a multimode (or multi-configuration) and multi-throughput system into a single hardware architecture. {T}he inputs of the design flow are the data flow graphs ({DFG}s), representing the different modes (i.e. the different applications to be implemented), with their respective throughput constraints. {W}hile traditional approaches merge {DFG}s together before the synthesis process, we propose to use ad-hoc scheduling and binding steps during the synthesis of each {DFG}. {T}he scheduling, which assigns operations to specific time steps, maximizes the similarity between the control steps and thus decreases the controller complexity. {T}he binding process, which assigns operations to specific functional units and data to specific storage elements, maximizes the similarity between datapaths and thus minimizes steering logic and register overhead. {F}irst results show the interest of the proposed synthesis flow.},
     262        language = {{A}nglais},
     263        affiliation = {{L}aboratoire d'{E}lectronique des {S}yst{\`e}mes {TE}mps {R}{\'e}el - {LESTER} - {CNRS} : {FRE}2734 - {U}niversit{\'e} de {B}retagne {S}ud - {R}2{D}2 - {INRIA} - {IRISA} - {CNRS} : {UMR}6074 - {INRIA} - {I}nstitut {N}ational des {S}ciences {A}ppliqu{\'e}es de {R}ennes - {E}cole {N}ationale {S}up{\'e}rieure des {S}ciences {A}ppliqu{\'e}es et de {T}echnologie - {U}niversit{\'e} de {R}ennes 1 },
     264        booktitle = {{P}roceeding of {A}daptive {H}ardware and {S}ystems {NASA}/{ESA} {C}onference on {A}daptive {H}ardware and {S}ystems },
     265        publisher = {{AHS} },
     266        pages = {7 },
     267        address = {{E}dinburgh {R}oyaume-{U}ni },
     268        audience = {internationale },
     269    year = {2007},
     270    URL = {http://hal.archives-ouvertes.fr/hal-00153086/en/},
     271    URL = {http://hal.archives-ouvertes.fr/hal-00153086/PDF/PID411805.pdf},
     272}
     273
     274
     275@inproceedings{COUSSY:2005:HAL-00077301:1,
     276        title = { {A} {M}ore {E}fficient and {F}lexible {DSP} {D}esign {F}low from {MATLAB}-{SIMULINK}},
     277        author = {{C}oussy, {P}hilippe and {C}orre, {G}wenol{\'e} and {B}omel, {P}ierre and {S}enn, {E}ric and {M}artin, {E}ric},
     278        abstract = {{T}he design of complex {D}igital {S}ignal {P}rocessing systems implies to minimize architectural cost and to maximize timing performances while taking into account communication and memory accesses constraints for the integration of dedicated hardware accelerator. {U}nfortunately, the traditional {M}atlab/{S}imulink design flows gather not very flexible hardware blocs. {I}n this paper, we present a methodology and a tool that permit the {H}igh-{L}evel {S}ynthesis of {DSP} applications, under both {I}/{O} timing and memory constraints. {B}ased on formal models and a generic architecture, this tool helps the designer in finding a reasonable trade-off between the circuit's latency and its architectural complexity. {T}he efficiency of our approach is demonstrated on the case study of a {FFT} algorithm.},
     279        keywords = {{DSP} application, synthesis under memory and communication constraints},
     280        language = {{A}nglais},
     281        affiliation = {{L}aboratoire d'{E}lectronique des {S}yst{\`e}mes {TE}mps {R}{\'e}el - {LESTER} - {CNRS} : {FRE}2734 - {U}niversit{\'e} de {B}retagne {S}ud },
     282        booktitle = {{IEEE} {I}nternational {C}onference on {A}coustic, {S}peech and {S}ignal {P}rocessing },
     283        publisher = {{IEEE} },
     284        pages = {{V}ol. {V} p. 61-64 },
     285        editor = {{IEEEE} },
     286    year = {2005},
     287    URL = {http://hal.archives-ouvertes.fr/hal-00077301/en/},
     288    URL = {http://hal.archives-ouvertes.fr/hal-00077301/PDF/coussy_final.pdf},
     289}
     290
     291
    127292
    128293%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Note: See TracChangeset for help on using the changeset viewer.