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Domain > www.jonjwong.com
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2019-07-19
208.94.116.60
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2025-10-07
208.94.117.9
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Port 80
HTTP/1.1 200 OKDate: Tue, 07 Oct 2025 14:43:47 GMTServer: ApacheUpgrade: h2cConnection: UpgradeLast-Modified: Thu, 21 Apr 2016 06:56:30 GMTETag: 2ccb-530f935bb2380Accept-Ranges: bytesContent-Length: 11467Age: 2849Vary: Accept-EncodingVia: e13Content-Type: text/html; charsetUTF-8 html langen>head>meta http-equivContent-Type contenttext/html; charsetUTF-8> meta charsetutf-8> meta http-equivX-UA-Compatible contentIEedge,chrome1> title>Jonathan Wong/title> meta namedescription contentStanford Ph.D. - Working Towards a Heartbeat in a Heartbeat> meta nameauthor contentJonathan Wong> !-- Mobile viewport optimized: j.mp/bplateviewport --> meta nameviewport contentwidthdevice-width,initial-scale1> link hrefscreen.css mediascreen, projection relstylesheet typetext/css> link hrefhttp://fonts.googleapis.com/css?familyOswald:400,300,700 relstylesheet typetext/css>/head>body> div idcontainer> header> h1>a hrefindex.html>Jonathan Wong/a>/h1> nav> small> a hrefhttp://www.linkedin.com/pub/jonathan-wong/29/797/2ab>LinkedIn/a> /small> /nav> /header> aside> h2>Engineer, Analyst, and Educator/h2> /aside> div idmain rolemain> section classabout> h2>About Me/h2> img srcimages/legoheart.jpg width180px height> p> I like working on a variety of side projects ranging from academic research to quirky artsy projects. This webiste is just a place for me to share some of my work with the world in the hopes that some of it is useful, enjoyable, and inspiring. The projects section below highlights some of my notable endeavors. I strongly believe people can enjoy learning and have fun while continually challenging themselves. /p> p> In my limited spare time I often enjoy the great oudoors as well as recreational sports. More recently, I have become interested in photography, both as an art form, and as way to apply both my techincal and more artistic hobbies at the same time. Afterall, how many other hobbies encourage me to explore new places, experience interesting situations in creation, while demanding the utmost attention to the physics of light and the mathematics related to image aquisition of sensors? Then there is the whole ordeal of post-processing and correcting for distortion. /p> p> On occasion I am also a reviewer for the International Journal of Numerical Methods in Engineering. /p> h3> At the moment.../h3> p> I am currently working at a startup in the Bay Area. /p> h3> Education /h3> p> I have a B.S. in Mechanical Engineering and a minor in EECS at U.C. Berkeley (2007). I worked on image registration and finite element simulations of trabecular bone in the Berkeley Orthopaedic Laboratory with Prof. a hrefhttp://www.me.berkeley.edu/faculty/keaveny/>Tony Keaveny/a>. I earned my M.S. in Mechanical Engineering at Stanford Uniersity (2009) and my Ph.D. in Mechanical Engineering in (2012) with Prof. a hrefhttp://soe.stanford.edu/research/ekuhl.htm>Ellen Kuhl/a>. /p> p> In 2013, I was the instructor for MEC180/CEC133 Engineering Analysis Using the Finite Element Method at UC Berkeley. It was some nostalgic for me as I had myself taken the class only 7 years prior as an undergraduate. It was a very challenging experience to develop course material and explain seemingly esoteric and advanced concepts. I wrote letters of recommendation for a few students. It was also rewarding and fun to watch students learn and apply fundamental engineering analysis skills to real problems that they proposed. I think I would be interested in teaching again at some point! /p> h3>Stanford Ph.D. - Working Towards a Heartbeat in a Heartbeat/h3> p> From 2007-2012, I was a Ph.D. student in the a hrefhttp://biomechanics.stanford.edu/>Living Matter Lab/a> (formerly the Computational Biomechanics Lab) at Stanford. My advisor was Prof. a hrefhttp://soe.stanford.edu/research/ekuhl.htm>Ellen Kuhl/a>. My dissertation is titled i>Efficient Computational Modeling of Cardiac Tissue and Resulting Applications/i>. For my dissertation defense presentation in May, 2012, I held a live demonstration of a near-real-time interactive GPU-accelerated finite element heart simulation using the Microsoft Xbox Kinect Sensor. /p> center> iframe width560 height315 srchttps://www.youtube.com/embed/UDK9HVLqtsI frameborder0 allowfullscreen>/iframe> /center> br> p> Featured work: a hrefimages/ME2012Newsletter.pdf> media 1 - Newsletter /a> a hrefhttp://med.stanford.edu/ism/2011/september/cardiomyocyte.html> media 2 - Newsletter /a> a hrefhttp://www.scienceupdate.com/2011/11/light/> media 3 - ScienceUpdate Article /a> /p> p> I have also developed new sparse matrix vector multiplication algorithms for the GPU (CUDA) with Prof. a hrefhttp://mc.stanford.edu/Eric_Darve>Eric Darve./a>. The project is called warpkernel and is linked in the paper and a hrefhttp://github.com/thejonwong/warpkernel>here also. /a> It is one of the fastest GPU SPMV algorithms to date. /p> /section> section classpublications> h2>Publications/h2>p>Wong J, Kuhl E, Darve E.A new sparse matrix vector multiplication GPU algorithm designed for finite element problems. Int J Num Meth Eng. doi:10.1002/nme.4865.a hrefhttp://biomechanics.stanford.edu/paper/IJNME13.pdf> pdf /a>/p> p>Wong J, Göktepe S, Kuhl E.Computational modeling of chemo-electro-mechanical coupling: A novel implicit monolithic finite element approach.Int J Num Meth Biomed Eng. 2013;29:1104-1133.a hrefhttp://biomechanics.stanford.edu/paper/IJNMB13.pdf> pdf /a>/p>p>Wong J, Kuhl E.Generating fiber orientation maps in human heart models using Poisson interpolation.Comp Meth Biomech Biomed Eng. doi:10.1080/10255842.2012.739167.a hrefhttp://biomechanics.stanford.edu/paper/CMBBE13b.pdf> pdf /a>/p> p>Chen MQ, Wong J, Kuhl E, Giovangrandi L, Kovacs GTA. Characterization of electrophysiological conduction in cardiomyocyte co-cultures using co-occurrence analysis. Comp Meth Biomech Biomed Eng, doi:10.1080/10255842.2011.615310. a hrefhttp://biomechanics.stanford.edu/paper/CMBBE11b.pdf> pdf /a> /p> p> Wong J, Abilez OJ, Kuhl E. Computational optogenetics - A novel continuum framework for the photoelectrochemistry of living systems. J Mech Phys Solids, 2012;60:1158-1178. a hrefhttp://biomechanics.stanford.edu/paper/JMPS12.pdf> pdf /a> /p> p> Buganza Tepole A, Ploch CJ, Wong J, Gosain AK, Kuhl E. Growing skin - A computational model for skin expansion in reconstructive surgery. J Mech Phys Solids, 2011;59:2177-2190. a hrefhttp://biomechanics.stanford.edu/paper/JMPS11a.pdf> pdf /a> /p> p> Wong J, Göktepe S, Kuhl E. Computational modeling of electrochemical coupling: A novel finite element approach towards ionic models for cardiac electrophysiology. Comp Meth Appl Mech Eng, 2011;200:3139-3158. a hrefhttp://biomechanics.stanford.edu/paper/CMAME11.pdf> pdf /a> /p> p> Abilez OJ, Wong J, Prakash R, Deisseroth K, Zarins CK, Kuhl E. Multiscale computational models for optogenetic control of cardiac function. Biophys J, 2011;101:1326-1334. a hrefhttp://biomechanics.stanford.edu/paper/BIOPJ11.pdf> pdf /a> /p> p> Göktepe S, Acharya SNS, Wong J, Kuhl E. Computational modeling of passive myocardium. Int J Num Meth Biomed Eng, 2011;27:1-12. a hrefhttp://biomechanics.stanford.edu/paper/IJNMB11.pdf> pdf /a> /p>p>Göktepe S, Wong J, Kuhl E.Atrial and ventricular fibrillation -Computational simulation of spiral waves in cardiac tissue.Arch Appl Mech, 2010;80:569-580.a hrefhttp://biomechanics.stanford.edu/paper/AMECH10.pdf>pdf/a>/p> /section> section classheroes> h2>Projects/h2> h3>Personal on-going projects/h3> p> In my limited spare time, I still work on several projects. Here are the ones Ive unveiled thus far. /p> ul> li classproject> a hrefhttps://github.com/thejonwong/huginenfuse titlelightroom> img srcimages/LR.JPG> /a> span>HuginEnfuse Lightroom plugin/span> /li> /ul> h3> a href./project/>Personal Project Blog/a> /h3> p> Occasionally I write blog articles related to some of my personal side projects on my a href./project/>project blog/a>. The topic of the articles ranges from numerical algorithms to photography hacks to reviews of applications. Occasionally, if I am able to come up with a good solution to troubleshooting issues I feel others may be interested in I also post them. I tend to include some helpful scripts whenever I feel other people will appreciate them. /p> h3>University related projects/h3> p> Below are some fun projects I worked on while I was at Stanford. /p> ul> li classproject> a hreflego.html titlelegoheart> img srcimages/legoicon.JPG> /a> span>Lego Heart/span> /li> li classproject> a hrefkinect.html titlekinect> img srcimages/kinect-xl.jpg width150px> /a> span>Kinect Demonstration/span> /li> li classproject> a hrefcal.html titlepapercal> img srcimages/cal.jpg width150px> /a> span>Paper Campanile/span> /li> li classproject> a hrefpumpkin.html titlepumpkin> img srcimages/pumpkin.jpg width150px> /a> span>Pumpkin Carving/span> /li> /li> li classproject> a hrefparaview.html titleparaview> img srcimages/10.jpg width150px> /a> span>Paraview and Meshing Scripts/span> /li> li classproject> a hrefhttp://med.stanford.edu/ism/2011/september/cardiomyocyte.html titleparaview> img srcimages/07.jpg width150px> /a> span>Computational Model of Channelrhodopsin-2 Cell /span> /li> li classproject> a hrefimages.html titleparaview> img srcimages/conf.jpg width150px> /a> span>Conference Travel/span> /li> /ul> /section> section classheroes> /section> /div> footer> p> /p> /footer> /div> hr> p>All rights reserved. Jonathan Wong 2016./p>/body>/html>
Port 443
HTTP/1.1 200 OKDate: Tue, 07 Oct 2025 15:31:17 GMTServer: ApacheLast-Modified: Thu, 21 Apr 2016 06:56:30 GMTETag: 2ccb-530f935bb2380Accept-Ranges: bytesContent-Length: 11467Content-Type: text/html; charsetUTF-8Vary: Accept-EncodingVia: e14s html langen>head>meta http-equivContent-Type contenttext/html; charsetUTF-8> meta charsetutf-8> meta http-equivX-UA-Compatible contentIEedge,chrome1> title>Jonathan Wong/title> meta namedescription contentStanford Ph.D. - Working Towards a Heartbeat in a Heartbeat> meta nameauthor contentJonathan Wong> !-- Mobile viewport optimized: j.mp/bplateviewport --> meta nameviewport contentwidthdevice-width,initial-scale1> link hrefscreen.css mediascreen, projection relstylesheet typetext/css> link hrefhttp://fonts.googleapis.com/css?familyOswald:400,300,700 relstylesheet typetext/css>/head>body> div idcontainer> header> h1>a hrefindex.html>Jonathan Wong/a>/h1> nav> small> a hrefhttp://www.linkedin.com/pub/jonathan-wong/29/797/2ab>LinkedIn/a> /small> /nav> /header> aside> h2>Engineer, Analyst, and Educator/h2> /aside> div idmain rolemain> section classabout> h2>About Me/h2> img srcimages/legoheart.jpg width180px height> p> I like working on a variety of side projects ranging from academic research to quirky artsy projects. This webiste is just a place for me to share some of my work with the world in the hopes that some of it is useful, enjoyable, and inspiring. The projects section below highlights some of my notable endeavors. I strongly believe people can enjoy learning and have fun while continually challenging themselves. /p> p> In my limited spare time I often enjoy the great oudoors as well as recreational sports. More recently, I have become interested in photography, both as an art form, and as way to apply both my techincal and more artistic hobbies at the same time. Afterall, how many other hobbies encourage me to explore new places, experience interesting situations in creation, while demanding the utmost attention to the physics of light and the mathematics related to image aquisition of sensors? Then there is the whole ordeal of post-processing and correcting for distortion. /p> p> On occasion I am also a reviewer for the International Journal of Numerical Methods in Engineering. /p> h3> At the moment.../h3> p> I am currently working at a startup in the Bay Area. /p> h3> Education /h3> p> I have a B.S. in Mechanical Engineering and a minor in EECS at U.C. Berkeley (2007). I worked on image registration and finite element simulations of trabecular bone in the Berkeley Orthopaedic Laboratory with Prof. a hrefhttp://www.me.berkeley.edu/faculty/keaveny/>Tony Keaveny/a>. I earned my M.S. in Mechanical Engineering at Stanford Uniersity (2009) and my Ph.D. in Mechanical Engineering in (2012) with Prof. a hrefhttp://soe.stanford.edu/research/ekuhl.htm>Ellen Kuhl/a>. /p> p> In 2013, I was the instructor for MEC180/CEC133 Engineering Analysis Using the Finite Element Method at UC Berkeley. It was some nostalgic for me as I had myself taken the class only 7 years prior as an undergraduate. It was a very challenging experience to develop course material and explain seemingly esoteric and advanced concepts. I wrote letters of recommendation for a few students. It was also rewarding and fun to watch students learn and apply fundamental engineering analysis skills to real problems that they proposed. I think I would be interested in teaching again at some point! /p> h3>Stanford Ph.D. - Working Towards a Heartbeat in a Heartbeat/h3> p> From 2007-2012, I was a Ph.D. student in the a hrefhttp://biomechanics.stanford.edu/>Living Matter Lab/a> (formerly the Computational Biomechanics Lab) at Stanford. My advisor was Prof. a hrefhttp://soe.stanford.edu/research/ekuhl.htm>Ellen Kuhl/a>. My dissertation is titled i>Efficient Computational Modeling of Cardiac Tissue and Resulting Applications/i>. For my dissertation defense presentation in May, 2012, I held a live demonstration of a near-real-time interactive GPU-accelerated finite element heart simulation using the Microsoft Xbox Kinect Sensor. /p> center> iframe width560 height315 srchttps://www.youtube.com/embed/UDK9HVLqtsI frameborder0 allowfullscreen>/iframe> /center> br> p> Featured work: a hrefimages/ME2012Newsletter.pdf> media 1 - Newsletter /a> a hrefhttp://med.stanford.edu/ism/2011/september/cardiomyocyte.html> media 2 - Newsletter /a> a hrefhttp://www.scienceupdate.com/2011/11/light/> media 3 - ScienceUpdate Article /a> /p> p> I have also developed new sparse matrix vector multiplication algorithms for the GPU (CUDA) with Prof. a hrefhttp://mc.stanford.edu/Eric_Darve>Eric Darve./a>. The project is called warpkernel and is linked in the paper and a hrefhttp://github.com/thejonwong/warpkernel>here also. /a> It is one of the fastest GPU SPMV algorithms to date. /p> /section> section classpublications> h2>Publications/h2>p>Wong J, Kuhl E, Darve E.A new sparse matrix vector multiplication GPU algorithm designed for finite element problems. Int J Num Meth Eng. doi:10.1002/nme.4865.a hrefhttp://biomechanics.stanford.edu/paper/IJNME13.pdf> pdf /a>/p> p>Wong J, Göktepe S, Kuhl E.Computational modeling of chemo-electro-mechanical coupling: A novel implicit monolithic finite element approach.Int J Num Meth Biomed Eng. 2013;29:1104-1133.a hrefhttp://biomechanics.stanford.edu/paper/IJNMB13.pdf> pdf /a>/p>p>Wong J, Kuhl E.Generating fiber orientation maps in human heart models using Poisson interpolation.Comp Meth Biomech Biomed Eng. doi:10.1080/10255842.2012.739167.a hrefhttp://biomechanics.stanford.edu/paper/CMBBE13b.pdf> pdf /a>/p> p>Chen MQ, Wong J, Kuhl E, Giovangrandi L, Kovacs GTA. Characterization of electrophysiological conduction in cardiomyocyte co-cultures using co-occurrence analysis. Comp Meth Biomech Biomed Eng, doi:10.1080/10255842.2011.615310. a hrefhttp://biomechanics.stanford.edu/paper/CMBBE11b.pdf> pdf /a> /p> p> Wong J, Abilez OJ, Kuhl E. Computational optogenetics - A novel continuum framework for the photoelectrochemistry of living systems. J Mech Phys Solids, 2012;60:1158-1178. a hrefhttp://biomechanics.stanford.edu/paper/JMPS12.pdf> pdf /a> /p> p> Buganza Tepole A, Ploch CJ, Wong J, Gosain AK, Kuhl E. Growing skin - A computational model for skin expansion in reconstructive surgery. J Mech Phys Solids, 2011;59:2177-2190. a hrefhttp://biomechanics.stanford.edu/paper/JMPS11a.pdf> pdf /a> /p> p> Wong J, Göktepe S, Kuhl E. Computational modeling of electrochemical coupling: A novel finite element approach towards ionic models for cardiac electrophysiology. Comp Meth Appl Mech Eng, 2011;200:3139-3158. a hrefhttp://biomechanics.stanford.edu/paper/CMAME11.pdf> pdf /a> /p> p> Abilez OJ, Wong J, Prakash R, Deisseroth K, Zarins CK, Kuhl E. Multiscale computational models for optogenetic control of cardiac function. Biophys J, 2011;101:1326-1334. a hrefhttp://biomechanics.stanford.edu/paper/BIOPJ11.pdf> pdf /a> /p> p> Göktepe S, Acharya SNS, Wong J, Kuhl E. Computational modeling of passive myocardium. Int J Num Meth Biomed Eng, 2011;27:1-12. a hrefhttp://biomechanics.stanford.edu/paper/IJNMB11.pdf> pdf /a> /p>p>Göktepe S, Wong J, Kuhl E.Atrial and ventricular fibrillation -Computational simulation of spiral waves in cardiac tissue.Arch Appl Mech, 2010;80:569-580.a hrefhttp://biomechanics.stanford.edu/paper/AMECH10.pdf>pdf/a>/p> /section> section classheroes> h2>Projects/h2> h3>Personal on-going projects/h3> p> In my limited spare time, I still work on several projects. Here are the ones Ive unveiled thus far. /p> ul> li classproject> a hrefhttps://github.com/thejonwong/huginenfuse titlelightroom> img srcimages/LR.JPG> /a> span>HuginEnfuse Lightroom plugin/span> /li> /ul> h3> a href./project/>Personal Project Blog/a> /h3> p> Occasionally I write blog articles related to some of my personal side projects on my a href./project/>project blog/a>. The topic of the articles ranges from numerical algorithms to photography hacks to reviews of applications. Occasionally, if I am able to come up with a good solution to troubleshooting issues I feel others may be interested in I also post them. I tend to include some helpful scripts whenever I feel other people will appreciate them. /p> h3>University related projects/h3> p> Below are some fun projects I worked on while I was at Stanford. /p> ul> li classproject> a hreflego.html titlelegoheart> img srcimages/legoicon.JPG> /a> span>Lego Heart/span> /li> li classproject> a hrefkinect.html titlekinect> img srcimages/kinect-xl.jpg width150px> /a> span>Kinect Demonstration/span> /li> li classproject> a hrefcal.html titlepapercal> img srcimages/cal.jpg width150px> /a> span>Paper Campanile/span> /li> li classproject> a hrefpumpkin.html titlepumpkin> img srcimages/pumpkin.jpg width150px> /a> span>Pumpkin Carving/span> /li> /li> li classproject> a hrefparaview.html titleparaview> img srcimages/10.jpg width150px> /a> span>Paraview and Meshing Scripts/span> /li> li classproject> a hrefhttp://med.stanford.edu/ism/2011/september/cardiomyocyte.html titleparaview> img srcimages/07.jpg width150px> /a> span>Computational Model of Channelrhodopsin-2 Cell /span> /li> li classproject> a hrefimages.html titleparaview> img srcimages/conf.jpg width150px> /a> span>Conference Travel/span> /li> /ul> /section> section classheroes> /section> /div> footer> p> /p> /footer> /div> hr> p>All rights reserved. Jonathan Wong 2016./p>/body>/html>
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