Travelled to:1 × Canada
1 × China
1 × France
1 × Ireland
1 × Italy
1 × United Kingdom
8 × USA
Collaborated with:M.F.P.O'Boyle N.P.Topham T.J.K.E.v.Koch S.Manilov A.C.Murray I.Böhm T.Spink C.Vasiladiotis Z.Wang H.Wagstaff S.C.Kyle G.Fursin J.Thomson J.Renwick A.Magrath C.Andrieu D.C.Powell P.Bhandarkar A.Dasgupta M.Gould G.Tournavitis R.V.Bennett K.T.Sundararajan V.Porpodas T.M.Jones H.Leather M.Cole F.V.Agakov E.V.Bonilla J.Cavazos M.Toussaint C.K.I.Williams
Talks about:parallel (6) instruct (6) compil (5) generat (4) embed (4) code (4) set (4) translat (3) exploit (3) effici (3)
Person: Björn Franke
DBLP: Franke:Bj=ouml=rn
Facilitated 2 volumes:
Ed
EdContributed to:
201520142014
2013
2012
20122012
201120102009200720062005200120182019Wrote 18 papers:
- LCTES-2015-ManilovFMA #platform
- Free Rider: A Tool for Retargeting Platform-Specific Intrinsic Functions (SM, BF, AM, CA), p. 10.
- CC-2014-WangPFO #legacy #parallel
- Exploitation of GPUs for the Parallelisation of Probably Parallel Legacy Code (ZW, DCP, BF, MFPO), pp. 154–173.
- LCTES-2014-KochFBD #reduction #similarity
- Exploiting function similarity for code size reduction (TJKEvK, BF, PB, AD), pp. 85–94.
- LCTES-2014-SpinkWFT #code generation #performance
- Efficient code generation in a region-based dynamic binary translator (TS, HW, BF, NPT), pp. 3–12.
- DAC-2013-WagstaffGFT #architecture #partial evaluation #set
- Early partial evaluation in a JIT-compiled, retargetable instruction set simulator generated from a high-level architecture description (HW, MG, BF, NPT), p. 6.
- CGO-2012-MurrayF #automation #compilation #set
- Compiling for automatically generated instruction set extensions (ACM, BF), pp. 13–22.
- HPCA-2012-SundararajanPJTF #clustering #energy
- Cooperative partitioning: Energy-efficient cache partitioning for high-performance CMPs (KTS, VP, TMJ, NPT, BF), pp. 311–322.
- LCTES-2012-KyleBFLT #embedded #manycore #set #simulation #using
- Efficiently parallelizing instruction set simulation of embedded multi-core processors using region-based just-in-time dynamic binary translation (SCK, IB, BF, HL, NPT), pp. 21–30.
- PLDI-2011-BohmKKFT #compilation #parallel #using
- Generalized just-in-time trace compilation using a parallel task farm in a dynamic binary translator (IB, TJKEvK, SCK, BF, NPT), pp. 74–85.
- CGO-2010-KochBF #code generation
- Integrated instruction selection and register allocation for compact code generation exploiting freeform mixing of 16- and 32-bit instructions (TJKEvK, IB, BF), pp. 180–189.
- PLDI-2009-TournavitisWFO #approach #detection #parallel #towards
- Towards a holistic approach to auto-parallelization: integrating profile-driven parallelism detection and machine-learning based mapping (GT, ZW, BF, MFPO), pp. 177–187.
- LCTES-2007-BennettMFT #automation #embedded #set #text-to-text
- Combining source-to-source transformations and processor instruction set extensions for the automated design-space exploration of embedded systems (RVB, ACM, BF, NPT), pp. 83–92.
- CGO-2006-AgakovBCFFOTTW #machine learning #optimisation #using
- Using Machine Learning to Focus Iterative Optimization (FVA, EVB, JC, BF, GF, MFPO, JT, MT, CKIW), pp. 295–305.
- LCTES-2005-FrankeOTF #embedded #optimisation #probability #source code
- Probabilistic source-level optimisation of embedded programs (BF, MFPO, JT, GF), pp. 78–86.
- CC-2001-FrankeO #array #compilation #pointer
- Compiler Transformation of Pointers to Explicit Array Accesses in DSP Applications (BF, MFPO), pp. 69–85.
- CC-2018-KochMVCF #algorithm #analysis #compilation #parallel #towards
- Towards a compiler analysis for parallel algorithmic skeletons (TJKEvK, SM, CV, MC, BF), pp. 174–184.
- CC-2018-ManilovVF #recognition
- Generalized profile-guided iterator recognition (SM, CV, BF), pp. 185–195.
- CC-2019-RenwickSF #c++ #embedded #exception #low cost
- Low-cost deterministic C++ exceptions for embedded systems (JR, TS, BF), pp. 76–86.