Travelled to:1 × Canada
2 × USA
Collaborated with:P.Dubey C.Kim N.Satish A.D.Nguyen V.W.Lee E.Sedlar T.Kaldewey J.Sewall D.S.Johnson S.Krishnan S.Kumar S.Venkatasubramanian J.Park H.Lee D.Kim J.Krüger M.Grund D.Schwalb H.Plattner A.Zeier S.A.Brandt A.D.Blas W.Macy M.Hagog Y.Chen A.Baransi S.Kumar
Talks about:fast (6) sort (5) cpus (4) core (4) architectur (3) multi (3) implement (2) modern (2) effici (2) tree (2)
Person: Jatin Chhugani
DBLP: Chhugani:Jatin
Contributed to:
2012
201120112010200920082004Wrote 8 papers:
- SIGMOD-2012-KimPSLDC #clustering #distributed #named #performance #ram #scalability
- CloudRAMSort: fast and efficient large-scale distributed RAM sort on shared-nothing cluster (CK, JP, NS, HL, PD, JC), pp. 841–850.
- VLDB-2012-KruegerKGSSCPDZ11 #database #manycore #performance #using
- Fast Updates on Read-Optimized Databases Using Multi-Core CPUs (JK, CK, MG, NS, DS, JC, HP, PD, AZ), pp. 61–72.
- VLDB-2011-SewallCKSD #architecture #manycore #named #parallel
- PALM: Parallel Architecture-Friendly Latch-Free Modifications to B+ Trees on Many-Core Processors (JS, JC, CK, NS, PD), pp. 795–806.
- SIGMOD-2010-KimCSSNKLBD #architecture #named #performance
- FAST: fast architecture sensitive tree search on modern CPUs and GPUs (CK, JC, NS, ES, ADN, TK, VWL, SAB, PD), pp. 339–350.
- SIGMOD-2010-SatishKCNLKD #performance
- Fast sort on CPUs and GPUs: a case for bandwidth oblivious SIMD sort (NS, CK, JC, ADN, VWL, DK, PD), pp. 351–362.
- VLDB-2009-KimSCKNBLSD #implementation #manycore #performance
- Sort vs. Hash Revisited: Fast Join Implementation on Modern Multi-Core CPUs (CK, ES, JC, TK, ADN, ADB, VWL, NS, PD), pp. 1378–1389.
- VLDB-2008-ChhuganiNLMHCBKD #architecture #cpu #implementation #manycore #performance #sorting
- Efficient implementation of sorting on multi-core SIMD CPU architecture (JC, ADN, VWL, WM, MH, YKC, AB, SK, PD), pp. 1313–1324.
- VLDB-2004-JohnsonKCKV #matrix #order #scalability #using
- Compressing Large Boolean Matrices using Reordering Techniques (DSJ, SK, JC, SK, SV), pp. 13–23.